#include <Python.h>
#include "binary_c_python.h"
#include <time.h>
#include <sys/timeb.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <stdint.h>
/*
* binary_c/PYTHON API interface functions
*
* This module will be available as _binary_c_bindings, as a part of the binarycpython package.
*
* The first section contains the functions that will be available
* to python as part of the submodule _binary_c_bindings
*
* The second section is composed of the functions that interface with the binary_c API
*
* Written by David Hendriks (davidhendriks93@gmail.com), Robert Izzard (r.izzard@surrey.ac.uk).
* Based on initial work of Jeff Andrews
* Remember: variables must be passed by references
* (i.e. as pointers).
*
* See tests/python_API_test.py for an example of how to use these functions.
*
* Backup reading material for making C-extensions:
* http://www-h.eng.cam.ac.uk/help/tpl/languages/mixinglanguages.html
* https://realpython.com/build-python-c-extension-module/
* https://docs.python.org/3/extending/extending.html
* https://docs.python.org/3/c-api/arg.html#c.PyArg_ParseTuple
* https://realpython.com/python-bindings-overview/
* http://scipy-lectures.org/advanced/interfacing_with_c/interfacing_with_c.html
*
* Open tasks for the Extension:
* TODO: Put in clear debug statements
* TODO: properly return stderr
* TODO: describe all functions with docstrings
* TODO: properly pass through all the pointers using Capsules:
https://docs.python.org/3.6/c-api/capsule.html#c.PyCapsule_New
https://gist.github.com/Sleepingwell/5259476
https://bfroehle.com/2011/07/18/python-capsules/
https://docs.python.domainunion.de/3.6/howto/cporting.html
https://lappweb.in2p3.fr/~paubert/ASTERICS_HPC/5-6-3-651.html
https://www.geeksforgeeks.org/c-api-from-extension-module-in-python-set-1/
http://pageperso.lif.univ-mrs.fr/~francois.denis/IAAM1/python-3.6.5rc1-docs-html/howto/cporting.html
http://python3porting.com/cextensions.html
*/
/************************************************************
************************************************************
** Section 1: Python module functions and creation of module
************************************************************
************************************************************/
/************************************************************
*
* function prototypes : these are the functions
* called by PYTHON code, without the trailing underscore.
*
************************************************************/
/* Preparing all the functions of the module */
// Docstrings
static char module_docstring[] MAYBE_UNUSED =
"This module is a python3 wrapper around binary_c";
// Evolution function docstrings
static char run_system_docstring[] =
"Function to run a system. This is a general function that will be able to handle different kinds of situations: single system run with different settings, population run with different settings, etc. To avoid having too many functions doing slightly different things. \n\nArguments:\n\targstring: argument string for binary_c\n\t(opt) custom_logging_func_memaddr: memory address value for custom logging function. Default = -1 (None)\n\t(opt) store_memaddr: memory adress of the store. Default = -1 (None)\n\t(opt) write_logfile: Boolean (in int form) for whether to enable the writing of the log function. Default = 0\n\t(opt) population: Boolean (in int form) for whether this system is part of a population run. Default = 0.";
// Utility function docstrings
static char return_arglines_docstring[] =
"Return the default args for a binary_c system";
static char return_help_info_docstring[] =
"Return the help info for a given parameter";
static char return_help_all_info_docstring[] =
"Return an overview of all the parameters, their description, categorized in sections";
static char return_version_info_docstring[] =
"Return the version information of the used binary_c build";
// other functionality
static char return_store_memaddr_docstring[] =
"Return the store memory adress that will be passed to run_population";
static char return_persistent_data_memaddr_docstring[] =
"Return the store memory adress that will be passed to run_population";
static char free_persistent_data_memaddr_and_return_json_output_docstring[] =
"Frees the persistent_data memory and returns the json output";
static char free_store_memaddr_docstring[] =
"Frees the store memaddr";
static char test_func_docstring[] =
"Function that contains random snippets. Do not expect this to remain available, or reliable. i.e. dont use it. ";
/* Initialize pyobjects */
// Evolution function headers
static PyObject* binary_c_run_system(PyObject *self, PyObject *args, PyObject *kwargs);
// Utility function headers
static PyObject* binary_c_return_arglines(PyObject *self, PyObject *args);
static PyObject* binary_c_return_help_info(PyObject *self, PyObject *args);
static PyObject* binary_c_return_help_all_info(PyObject *self, PyObject *args);
static PyObject* binary_c_return_version_info(PyObject *self, PyObject *args);
// Other function headers
static PyObject* binary_c_return_store_memaddr(PyObject *self, PyObject *args);
static PyObject* binary_c_return_persistent_data_memaddr(PyObject *self, PyObject *args);
// Free functions
static PyObject* binary_c_free_persistent_data_memaddr_and_return_json_output(PyObject *self, PyObject *args);
static PyObject* binary_c_free_store_memaddr(PyObject *self, PyObject *args);
static PyObject* binary_c_test_func(PyObject *self, PyObject *args);
/* Set the module functions */
static PyMethodDef module_methods[] = {
// Wierdly, this casting to a PyCFunction, which usually takes only 2 args, now works when giving keywords. See https://stackoverflow.com/q/10264080
{"run_system", (PyCFunction)binary_c_run_system, METH_VARARGS|METH_KEYWORDS, run_system_docstring},
//
{"return_arglines", binary_c_return_arglines, METH_VARARGS, return_arglines_docstring},
{"return_help", binary_c_return_help_info, METH_VARARGS, return_help_info_docstring},
{"return_help_all", binary_c_return_help_all_info, METH_VARARGS, return_help_all_info_docstring},
{"return_version_info", binary_c_return_version_info, METH_VARARGS, return_version_info_docstring},
//
{"return_store_memaddr", binary_c_return_store_memaddr, METH_VARARGS, return_store_memaddr_docstring},
{"return_persistent_data_memaddr", binary_c_return_persistent_data_memaddr, METH_NOARGS, return_persistent_data_memaddr_docstring},
//
{"free_persistent_data_memaddr_and_return_json_output", binary_c_free_persistent_data_memaddr_and_return_json_output, METH_VARARGS, free_persistent_data_memaddr_and_return_json_output_docstring},
{"free_store_memaddr", binary_c_free_store_memaddr, METH_VARARGS, free_store_memaddr_docstring},
{"test_func", binary_c_test_func, METH_NOARGS, test_func_docstring},
//
{NULL, NULL, 0, NULL}
};
/* ============================================================================== */
/* Making the module */
/* ============================================================================== */
/* Initialise the module. Removed the part which supports python 2 here on 17-03-2020 */
/* Python 3+ */
static struct PyModuleDef Py__binary_c_bindings =
{
PyModuleDef_HEAD_INIT,
"_binary_c_bindings", /* name of module */
"Module to interface the Binary_c API with python.", /* module documentation, may be NULL */
-1, /* size of per-interpreter state of the module, or -1 if the module keeps state in global variables. */
module_methods
};
PyMODINIT_FUNC PyInit__binary_c_bindings(void)
{
return PyModule_Create(&Py__binary_c_bindings);
}
/* ============================================================================== */
/* Some function that we started out with. Unused now. */
/* ============================================================================== */
/*
Below are the real functions:
binary_c_run_population
binary_c_run_system
binary_c_return_arglines
binary_c_return_help_info
binary_c_return_help_all_info
binary_c_return_version_info
*/
/* ============================================================================== */
/* Wrappers to functions that evolve binary systems. */
/* ============================================================================== */
static PyObject* binary_c_run_system(PyObject *self, PyObject *args, PyObject *kwargs)
{
static char* keywords[] = {"argstring", "custom_logging_func_memaddr", "store_memaddr", "persistent_data_memaddr", "write_logfile", "population", NULL};
/* set vars and default values for some*/
char *argstring;
long int custom_logging_func_memaddr = -1;
long int store_memaddr = -1;
long int persistent_data_memaddr = -1;
int write_logfile = 0;
int population = 0;
// By using the keywords argument it scans over the given set of kwargs, but if they are not given then the default value is used
/* Parse the input tuple */
if(!PyArg_ParseTupleAndKeywords(args, kwargs, "s|lllii", keywords, &argstring, &custom_logging_func_memaddr, &store_memaddr, &persistent_data_memaddr, &write_logfile, &population))
{
return NULL;
}
// printf("Input persistent_Data_memaddr: %lu\n", persistent_data_memaddr);
/* Call c-function */
char * buffer;
char * error_buffer;
size_t nbytes;
int out MAYBE_UNUSED = run_system(argstring, // the argstring
custom_logging_func_memaddr, // memory adress for the function for custom logging
store_memaddr, // memory adress for the store object
persistent_data_memaddr, // memory adress for the persistent data
write_logfile, // boolean for whether to write the logfile
population, // boolean for whether this is part of a population.
&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
/* Display error */
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_run_system): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
/* ============================================================================== */
/* Wrappers to functions that call other API functionality like help and arglines */
/* ============================================================================== */
static PyObject* binary_c_return_arglines(PyObject *self, PyObject *args)
{
char * buffer;
char * error_buffer;
size_t nbytes;
int out MAYBE_UNUSED = return_arglines(&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_arglines): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
static PyObject* binary_c_return_help_info(PyObject *self, PyObject *args)
{
/* Parse the input tuple */
char *argstring;
if(!PyArg_ParseTuple(args, "s", &argstring))
{
return NULL;
}
char * buffer;
char * error_buffer;
size_t nbytes;
int out MAYBE_UNUSED = return_help_info(argstring,
&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_help_info): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
static PyObject* binary_c_return_help_all_info(PyObject *self, PyObject *args)
{
char * buffer;
char * error_buffer;
size_t nbytes;
int out MAYBE_UNUSED = return_help_all_info(&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_help_all_info): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
static PyObject* binary_c_return_version_info(PyObject *self, PyObject *args)
{
char * buffer;
char * error_buffer;
size_t nbytes;
int out MAYBE_UNUSED = return_version_info(&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_version_info): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
/* ============================================================================== */
/* Wrappers to functions that call other functionality */
/* ============================================================================== */
static PyObject* binary_c_return_store_memaddr(PyObject *self, PyObject *args)
{
char * buffer;
char * error_buffer;
size_t nbytes;
long int out MAYBE_UNUSED = return_store_memaddr(&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string MAYBE_UNUSED = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
PyObject * store_memaddr = Py_BuildValue("l", out);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_store_memaddr): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return store_memaddr;
}
static PyObject* binary_c_return_persistent_data_memaddr(PyObject *self, PyObject *args)
{
/* Python binding that wraps the c function which calls the binary_c api endpoint. */
char * buffer;
char * error_buffer;
size_t nbytes;
long int out MAYBE_UNUSED = return_persistent_data_memaddr(&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string MAYBE_UNUSED = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
PyObject * persistent_data_memaddr = Py_BuildValue("l", out);
// printf("persistent_data_memaddr: %ld\n", out);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_return_persistent_data_memaddr): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return persistent_data_memaddr;
}
/* Memory freeing functions */
static PyObject* binary_c_free_persistent_data_memaddr_and_return_json_output(PyObject *self, PyObject *args)
{
/* Python binding that calls the c function that free's the persistent data memory and prints out the json */
long int persistent_data_memaddr = -1;
/* Parse the input tuple */
if(!PyArg_ParseTuple(args, "l", &persistent_data_memaddr))
{
return NULL;
}
char * buffer;
char * error_buffer;
size_t nbytes;
long int out MAYBE_UNUSED = free_persistent_data_memaddr_and_return_json_output(persistent_data_memaddr,
&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string MAYBE_UNUSED = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_free_persistent_data_memaddr_and_return_json_output): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
return return_string;
}
static PyObject* binary_c_free_store_memaddr(PyObject *self, PyObject *args)
{
/* Python binding that calls the c function that free's the store memory */
long int store_memaddr = -1;
/* Parse the input tuple */
if(!PyArg_ParseTuple(args, "l", &store_memaddr))
{
fprintf(stderr,
"Error (in function: binary_c_free_store_memaddr): Got a bad input\n");
return NULL;
}
char * buffer;
char * error_buffer;
size_t nbytes;
long int out MAYBE_UNUSED = free_store_memaddr(store_memaddr,
&buffer,
&error_buffer,
&nbytes);
/* copy the buffer to a python string */
PyObject * return_string MAYBE_UNUSED = Py_BuildValue("s", buffer);
PyObject * return_error_string MAYBE_UNUSED = Py_BuildValue("s", error_buffer);
if(error_buffer != NULL && strlen(error_buffer)>0)
{
fprintf(stderr,
"Error (in function: binary_c_free_store_memaddr): %s\n",
error_buffer);
}
Safe_free(buffer);
Safe_free(error_buffer);
Py_RETURN_NONE;
}
static PyObject* binary_c_test_func(PyObject *self, PyObject *args)
{
// function to see if we can access the stability string
printf("%s", RLOF_stability_string(1));
Py_RETURN_NONE;
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////
/************************************************************
************************************************************
** Section 2: binary_c interfacing functions
**
** These functions call the binary_c API
************************************************************
************************************************************/
/* Binary_c python API
* Set of c-functions that interface with the binary_c api.
* These functions are called by python, through the functions defined above.
*
* Contains several functions:
* // evolution functions:
* run_system
* // utility functions:
* return_arglines
* return_help_info
* return_help_all_info
* return_version_info
* // memory allocating functions:
* return_store_memaddr
* free_persistent_data_memaddr_and_return_json_output
*
* // Memory freeing functions:
* free_store_memaddr
* free_persistent_data_memaddr_and_return_json_output
*/
// #define _CAPTURE
#ifdef _CAPTURE
static void show_stdout(void);
static void capture_stdout(void);
#endif
/* global variables */
int out_pipe[2];
int stdoutwas;
/* =================================================================== */
/* Functions to evolve systems */
/* =================================================================== */
/*
Function that runs a system. Has multiple input parameters:
Big function. Takes several arguments. See binary_c_python.c docstring.
TODO: Describe each input
*/
int run_system(char * argstring,
long int custom_logging_func_memaddr,
long int store_memaddr,
long int persistent_data_memaddr,
int write_logfile,
int population,
char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
/* memory for system */
struct libbinary_c_stardata_t *stardata = NULL;
// Store:
/* Check the value of the store_memaddr */
struct libbinary_c_store_t *store;
if(store_memaddr != -1)
{
// load the store from the integer that has been passed
store = (void*)store_memaddr;
}
else
{
// struct libbinary_c_store_t * store = NULL;
store = NULL;
}
// persistent_data:
struct libbinary_c_persistent_data_t *persistent_data;
if(persistent_data_memaddr != -1)
{
// load the persistent data from the long int that has been passed
persistent_data = (void*)persistent_data_memaddr;
debug_printf("Took long int memaddr %ld and loaded it to %p\n", persistent_data_memaddr, (void*)&persistent_data);
}
else
{
persistent_data = NULL;
debug_printf("persistent_data memory adress was -1, now setting it to NULL\n");
}
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
&persistent_data, // persistent_data
&argstring, // argv
-1 // argc
);
// Add flag to enable
/* disable logging */
if(write_logfile != 1)
{
snprintf(stardata->preferences->log_filename,
STRING_LENGTH-1,
"%s",
"/dev/null");
snprintf(stardata->preferences->api_log_filename_prefix,
STRING_LENGTH-1,
"%s",
"/dev/null");
}
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* Check the value of the custom_logging_memaddr */
if(custom_logging_func_memaddr != -1)
{
stardata->preferences->custom_output_function = (void*)(struct stardata_t *)custom_logging_func_memaddr;
}
debug_printf("ensemble_defer: %d\n", stardata->preferences->ensemble_defer);
/* do binary evolution */
binary_c_evolve_for_dt(stardata,
stardata->model.max_evolution_time);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* Determine whether to free the store memory adress*/
Boolean free_store = FALSE;
if (store_memaddr == -1)
{
debug_printf("Decided to free the store memaddr\n");
free_store = TRUE;
}
/* Determine whether to free the persistent data memory adress*/
Boolean free_persistent_data = FALSE;
if (persistent_data_memaddr == -1)
{
debug_printf("Decided to free the persistent_data memaddr\n");
free_persistent_data = TRUE;
}
/* free stardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
free_store, // free_store
FALSE, // free_raw_buffer
free_persistent_data // free_persistent
);
return 0;
}
/* =================================================================== */
/* Functions to call other API functionality like help and arglines */
/* =================================================================== */
int return_arglines(char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
/* memory for N binary systems */
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_store_t *store = NULL;
char *empty_str = "";
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
NULL, // persistent_data
&empty_str, // argv
-1 // argc
);
/* disable logging */
snprintf(stardata->preferences->log_filename,
STRING_LENGTH-1,
"%s",
"/dev/null");
snprintf(stardata->preferences->api_log_filename_prefix,
STRING_LENGTH-1,
"%s",
"/dev/null");
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* List available arguments */
binary_c_list_args(stardata);
/* get buffer pointer */
binary_c_buffer_info(stardata,buffer,nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata,error_buffer);
/* free stardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
return 0;
}
int return_help_info(char * argstring,
char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_store_t *store = NULL;
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
NULL, // persistent_data
&argstring, // argv
-1 // argc
);
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* Ask the help api */
binary_c_help(stardata, argstring);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free stardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
return 0;
}
int return_help_all_info(char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_store_t *store = NULL;
char * empty_str = "";
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
NULL, // persistent_data
&empty_str, // argv
-1 // argc
);
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* Ask the help api */
binary_c_help_all(stardata);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free stardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
return 0;
}
int return_version_info(char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_store_t * store = NULL;
char * empty_str = "";
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
NULL, // persistent_data
&empty_str, // argv
-1 // argc
);
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* Ask the help api */
binary_c_version(stardata);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free stardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
return 0;
}
/* =================================================================== */
/* Functions to set up memory */
/* =================================================================== */
long int return_store_memaddr(char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_stardata_t * stardata = NULL;
struct libbinary_c_store_t * store = NULL;
char * empty_str = "";
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
NULL, // persistent_data
&empty_str, // argv
-1 // argc
);
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free stardata (except the buffer and the store) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
FALSE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
/* convert the pointer */
uintptr_t store_memaddr_int = (uintptr_t)store; // C Version converting ptr to int
debug_printf("store is at address: %p store_memaddr_int: %ld\n", (void*)&store, store_memaddr_int);
/* Return the memaddr as an int */
return store_memaddr_int;
}
long int return_persistent_data_memaddr(char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
/* Function to allocate the persistent_data_memaddr */
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_store_t * store = NULL;
struct libbinary_c_persistent_data_t * persistent_data = NULL;
char * empty_str = "";
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
&persistent_data, // persistent_data
&empty_str, // argv
-1 // argc
);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* convert the pointer */
uintptr_t persistent_data_memaddr_int = (uintptr_t)stardata->persistent_data; // C Version converting ptr to int
debug_printf("persistent_data is at address: %p persistent_data_memaddr_int: %ld\n", (void*)&stardata->persistent_data, persistent_data_memaddr_int);
/* free stardata (except the buffer and the persistent data) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
FALSE // free_persistent
);
/* Return the memaddr as an int */
return persistent_data_memaddr_int;
}
/* =================================================================== */
/* Functions to free memory */
/* =================================================================== */
int free_persistent_data_memaddr_and_return_json_output(long int persistent_data_memaddr,
char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_store_t *store = NULL;
struct libbinary_c_stardata_t *stardata = NULL;
char * empty_str = "";
// persistent_data:
struct libbinary_c_persistent_data_t *persistent_data;
if(persistent_data_memaddr != -1)
{
// load the persistent data from the long int that has been passed
persistent_data = (void*)persistent_data_memaddr;
debug_printf("Took long int memaddr %ld and loaded it to %p\n", persistent_data_memaddr, (void*)&persistent_data);
}
else
{
printf("ERROR: this function needs a valid persistent_data_memaddr value. not -1\n");
// persistent_data = NULL;
// TODO: put break in the function here.
}
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
&persistent_data, // persistent_data
&empty_str, // argv
-1 // argc
);
/* Set the model hash (usually done internally but we're not evolving a system here */
stardata->model.ensemble_hash = stardata->persistent_data->ensemble_hash;
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* get output and free memory */
binary_c_output_to_json(stardata);
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free the reststardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
FALSE // free_persistent. It already
);
return 0;
}
int free_store_memaddr(long int store_memaddr,
char ** const buffer,
char ** const error_buffer,
size_t * const nbytes)
{
struct libbinary_c_stardata_t *stardata = NULL;
struct libbinary_c_persistent_data_t *persistent_data = NULL;
char * empty_str = "";
// Store:
/* Check the value of the store_memaddr */
struct libbinary_c_store_t *store;
if(store_memaddr != -1)
{
// load the store from the integer that has been passed
store = (void*)store_memaddr;
debug_printf("Took long int store_memaddr %ld and loaded it to %p\n", store_memaddr, (void*)&store);
}
else
{
store = NULL;
}
/* Set up new system */
binary_c_new_system(&stardata, // stardata
NULL, // previous_stardatas
NULL, // preferences
&store, // store
&persistent_data, // persistent_data
&empty_str, // argv
-1 // argc
);
debug_printf("freed store memaddr\n");
/* output to strings */
stardata->preferences->internal_buffering = INTERNAL_BUFFERING_STORE;
stardata->preferences->batchmode = BATCHMODE_LIBRARY;
/* get buffer pointer */
binary_c_buffer_info(stardata, buffer, nbytes);
/* get error buffer pointer */
binary_c_error_buffer(stardata, error_buffer);
/* free the reststardata (except the buffer) */
binary_c_free_memory(&stardata, // Stardata
TRUE, // free_preferences
TRUE, // free_stardata
TRUE, // free_store
FALSE, // free_raw_buffer
TRUE // free_persistent
);
return 0;
}