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apriltag_pywrap.c
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apriltag_pywrap.c
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#define NPY_NO_DEPRECATED_API NPY_API_VERSION
#include <stdbool.h>
#include <Python.h>
#include <structmember.h>
#include <numpy/arrayobject.h>
#include <signal.h>
#include "apriltag.h"
#include "tag36h10.h"
#include "tag36h11.h"
#include "tag25h9.h"
#include "tag16h5.h"
#include "tagCircle21h7.h"
#include "tagCircle49h12.h"
#include "tagCustom48h12.h"
#include "tagStandard41h12.h"
#include "tagStandard52h13.h"
#define SUPPORTED_TAG_FAMILIES(_) \
_(tag36h10) \
_(tag36h11) \
_(tag25h9) \
_(tag16h5) \
_(tagCircle21h7) \
_(tagCircle49h12) \
_(tagStandard41h12) \
_(tagStandard52h13) \
_(tagCustom48h12)
#define TAG_CREATE_FAMILY(name) \
else if (0 == strcmp(family, #name)) self->tf = name ## _create();
#define TAG_SET_DESTROY_FUNC(name) \
else if (0 == strcmp(family, #name)) self->destroy_func = name ## _destroy;
#define FAMILY_STRING(name) " " #name "\n"
// Python is silly. There's some nuance about signal handling where it sets a
// SIGINT (ctrl-c) handler to just set a flag, and the python layer then reads
// this flag and does the thing. Here I'm running C code, so SIGINT would set a
// flag, but not quit, so I can't interrupt the solver. Thus I reset the SIGINT
// handler to the default, and put it back to the python-specific version when
// I'm done
#define SET_SIGINT() struct sigaction sigaction_old; \
do { \
if( 0 != sigaction(SIGINT, \
&(struct sigaction){ .sa_handler = SIG_DFL }, \
&sigaction_old) ) \
{ \
PyErr_SetString(PyExc_RuntimeError, "sigaction() failed"); \
goto done; \
} \
} while(0)
#define RESET_SIGINT() do { \
if( 0 != sigaction(SIGINT, \
&sigaction_old, NULL )) \
PyErr_SetString(PyExc_RuntimeError, "sigaction-restore failed"); \
} while(0)
#define PYMETHODDEF_ENTRY(function_prefix, name, args) {#name, \
(PyCFunction)function_prefix ## name, \
args, \
function_prefix ## name ## _docstring}
typedef struct {
PyObject_HEAD
apriltag_family_t* tf;
apriltag_detector_t* td;
void (*destroy_func)(apriltag_family_t *tf);
} apriltag_py_t;
static PyObject *
apriltag_new(PyTypeObject *type, PyObject *args, PyObject *kwargs)
{
bool success = false;
apriltag_py_t* self = (apriltag_py_t*)type->tp_alloc(type, 0);
if(self == NULL) goto done;
self->tf = NULL;
self->td = NULL;
const char* family = NULL;
int Nthreads = 1;
int maxhamming = 1;
float decimate = 1.0;
float blur = 0.0;
bool refine_edges = true;
bool debug = false;
PyObject* py_refine_edges = NULL;
PyObject* py_debug = NULL;
char* keywords[] = {"family",
"threads",
"maxhamming",
"decimate",
"blur",
"refine-edges",
"debug",
NULL };
if(!PyArg_ParseTupleAndKeywords( args, kwargs, "s|iiffOO",
keywords,
&family,
&Nthreads,
&maxhamming,
&decimate,
&blur,
&py_refine_edges,
&py_debug ))
{
goto done;
}
if(py_refine_edges != NULL)
refine_edges = PyObject_IsTrue(py_refine_edges);
if(py_debug != NULL)
debug = PyObject_IsTrue(py_debug);
if(0) ; SUPPORTED_TAG_FAMILIES(TAG_SET_DESTROY_FUNC)
else
{
PyErr_Format(PyExc_RuntimeError, "Unrecognized tag family name: '%s'. Families I know about:\n%s",
family, SUPPORTED_TAG_FAMILIES(FAMILY_STRING));
goto done;
}
if(0) ; SUPPORTED_TAG_FAMILIES(TAG_CREATE_FAMILY);
self->td = apriltag_detector_create();
if(self->td == NULL)
{
PyErr_SetString(PyExc_RuntimeError, "apriltag_detector_create() failed!");
goto done;
}
apriltag_detector_add_family_bits(self->td, self->tf, maxhamming);
self->td->quad_decimate = decimate;
self->td->quad_sigma = blur;
self->td->nthreads = Nthreads;
self->td->refine_edges = refine_edges;
self->td->debug = debug;
success = true;
done:
if(!success)
{
if(self != NULL)
{
if(self->td != NULL)
{
apriltag_detector_destroy(self->td);
self->td = NULL;
}
if(self->tf != NULL)
{
self->destroy_func(self->tf);
self->tf = NULL;
}
Py_DECREF(self);
}
return NULL;
}
return (PyObject*)self;
}
static void apriltag_dealloc(apriltag_py_t* self)
{
if(self == NULL)
return;
if(self->td != NULL)
{
apriltag_detector_destroy(self->td);
self->td = NULL;
}
if(self->tf != NULL)
{
self->destroy_func(self->tf);
self->tf = NULL;
}
Py_TYPE(self)->tp_free((PyObject*)self);
}
static PyObject* apriltag_detect(apriltag_py_t* self,
PyObject* args)
{
PyObject* result = NULL;
PyArrayObject* xy_c = NULL;
PyArrayObject* xy_lb_rb_rt_lt = NULL;
PyArrayObject* image = NULL;
PyObject* detections_tuple = NULL;
SET_SIGINT();
if(!PyArg_ParseTuple( args, "O&",
PyArray_Converter, &image ))
goto done;
npy_intp* dims = PyArray_DIMS (image);
npy_intp* strides = PyArray_STRIDES(image);
int ndims = PyArray_NDIM (image);
if( ndims != 2 )
{
PyErr_Format(PyExc_RuntimeError, "The input image array must have exactly 2 dims; got %d",
ndims);
goto done;
}
if( PyArray_TYPE(image) != NPY_UINT8 )
{
PyErr_SetString(PyExc_RuntimeError, "The input image array must contain 8-bit unsigned data");
goto done;
}
if( strides[ndims-1] != 1 )
{
PyErr_SetString(PyExc_RuntimeError, "Image rows must live in contiguous memory");
goto done;
}
image_u8_t im = {.width = dims[1],
.height = dims[0],
.stride = strides[0],
.buf = PyArray_DATA(image)};
zarray_t* detections = apriltag_detector_detect(self->td, &im);
int N = zarray_size(detections);
detections_tuple = PyTuple_New(N);
if(detections_tuple == NULL)
{
PyErr_Format(PyExc_RuntimeError, "Error creating output tuple of size %d", N);
goto done;
}
for (int i=0; i < N; i++)
{
xy_c = (PyArrayObject*)PyArray_SimpleNew(1, ((npy_intp[]){2}), NPY_FLOAT64);
if(xy_c == NULL)
{
PyErr_SetString(PyExc_RuntimeError, "Could not allocate xy_c array");
goto done;
}
xy_lb_rb_rt_lt = (PyArrayObject*)PyArray_SimpleNew(2, ((npy_intp[]){4,2}), NPY_FLOAT64);
if(xy_lb_rb_rt_lt == NULL)
{
PyErr_SetString(PyExc_RuntimeError, "Could not allocate xy_lb_rb_rt_lt array");
goto done;
}
apriltag_detection_t* det;
zarray_get(detections, i, &det);
*(double*)PyArray_GETPTR1(xy_c, 0) = det->c[0];
*(double*)PyArray_GETPTR1(xy_c, 1) = det->c[1];
for(int j=0; j<4; j++)
{
*(double*)PyArray_GETPTR2(xy_lb_rb_rt_lt, j, 0) = det->p[j][0];
*(double*)PyArray_GETPTR2(xy_lb_rb_rt_lt, j, 1) = det->p[j][1];
}
PyTuple_SET_ITEM(detections_tuple, i,
Py_BuildValue("{s:i,s:f,s:i,s:N,s:N}",
"hamming", det->hamming,
"margin", det->decision_margin,
"id", det->id,
"center", xy_c,
"lb-rb-rt-lt", xy_lb_rb_rt_lt));
xy_c = NULL;
xy_lb_rb_rt_lt = NULL;
}
apriltag_detections_destroy(detections);
result = detections_tuple;
detections_tuple = NULL;
done:
Py_XDECREF(xy_c);
Py_XDECREF(xy_lb_rb_rt_lt);
Py_XDECREF(image);
Py_XDECREF(detections_tuple);
RESET_SIGINT();
return result;
}
static const char apriltag_detect_docstring[] =
#include "apriltag_detect.docstring.h"
;
static const char apriltag_type_docstring[] =
#include "apriltag_py_type.docstring.h"
;
static PyMethodDef apriltag_methods[] =
{ PYMETHODDEF_ENTRY(apriltag_, detect, METH_VARARGS),
{}
};
static PyTypeObject apriltagType =
{
PyVarObject_HEAD_INIT(NULL, 0)
.tp_name = "apriltag",
.tp_basicsize = sizeof(apriltag_py_t),
.tp_new = apriltag_new,
.tp_dealloc = (destructor)apriltag_dealloc,
.tp_methods = apriltag_methods,
.tp_flags = Py_TPFLAGS_DEFAULT,
.tp_doc = apriltag_type_docstring
};
static PyMethodDef methods[] =
{ {}
};
#if PY_MAJOR_VERSION == 2
PyMODINIT_FUNC initapriltag(void)
{
if (PyType_Ready(&apriltagType) < 0)
return;
PyObject* module = Py_InitModule3("apriltag", methods,
"AprilTags visual fiducial system detector");
Py_INCREF(&apriltagType);
PyModule_AddObject(module, "apriltag", (PyObject *)&apriltagType);
import_array();
}
#else
static struct PyModuleDef module_def =
{
PyModuleDef_HEAD_INIT,
"apriltag",
"AprilTags visual fiducial system detector",
-1,
methods
};
PyMODINIT_FUNC PyInit_apriltag(void)
{
if (PyType_Ready(&apriltagType) < 0)
return NULL;
PyObject* module =
PyModule_Create(&module_def);
Py_INCREF(&apriltagType);
PyModule_AddObject(module, "apriltag", (PyObject *)&apriltagType);
import_array();
return module;
}
#endif