import os
import subprocess
from cffi import FFI
from common.basedir import BASEDIR
# Initialize visiontest. Ignore output.
_visiond_dir = os.path.dirname(os.path.abspath(__file__))
_libvisiontest = "libvisiontest.so"
try: # because this crashes sometimes when running pipeline
subprocess.check_output(["make", "-C", _visiond_dir, "-f",
os.path.join(_visiond_dir, "visiontest.mk"),
_libvisiontest])
except Exception:
pass
class VisionTest():
"""A version of the vision model that can be run on a desktop.
WARNING: This class is not thread safe. VisionTest objects cannot be
created or used on multiple threads simultaneously.
"""
ffi = FFI()
ffi.cdef("""
typedef unsigned char uint8_t;
struct VisionTest;
typedef struct VisionTest VisionTest;
VisionTest* visiontest_create(int temporal_model, int disable_model,
int input_width, int input_height,
int model_input_width, int model_input_height);
void visiontest_destroy(VisionTest* visiontest);
void visiontest_transform(VisionTest* vt, const uint8_t* yuv_data,
uint8_t* out_y, uint8_t* out_u, uint8_t* out_v,
const float* transform);
""")
clib = ffi.dlopen(os.path.join(_visiond_dir, _libvisiontest))
def __init__(self, input_size, model_input_size, model):
"""Create a wrapper around visiond for off-device python code.
Inputs:
input_size: The size of YUV images passed to transform.
model_input_size: The size of YUV images passed to the model.
model: The name of the model to use. "temporal", "yuv", or None to disable the
model (used to disable OpenCL).
"""
self._input_size = input_size
self._model_input_size = model_input_size
if model is None:
disable_model = 1
temporal_model = 0
elif model == "yuv":
disable_model = 0
temporal_model = 0
elif model == "temporal":
disable_model = 0
temporal_model = 1
else:
raise ValueError("Bad model name: {}".format(model))
prevdir = os.getcwd()
os.chdir(_visiond_dir) # tmp hack to find kernels
os.environ['BASEDIR'] = BASEDIR
self._visiontest_c = self.clib.visiontest_create(
temporal_model, disable_model, self._input_size[0], self._input_size[1],
self._model_input_size[0], self._model_input_size[1])
os.chdir(prevdir)
@property
def input_size(self):
return self._input_size
@property
def model_input_size(self):
return self._model_input_size
def transform(self, yuv_data, transform):
y_len = self.model_input_size[0] * self.model_input_size[1]
t_y_ptr = bytearray(y_len)
t_u_ptr = bytearray(y_len // 4)
t_v_ptr = bytearray(y_len // 4)
self.transform_output_buffer(yuv_data, t_y_ptr, t_u_ptr, t_v_ptr,
transform)
return t_y_ptr, t_u_ptr, t_v_ptr
def transform_contiguous(self, yuv_data, transform):
y_ol = self.model_input_size[0] * self.model_input_size[1]
uv_ol = y_ol // 4
result = bytearray(y_ol * 3 // 2)
result_view = memoryview(result)
t_y_ptr = result_view[:y_ol]
t_u_ptr = result_view[y_ol:y_ol + uv_ol]
t_v_ptr = result_view[y_ol + uv_ol:]
self.transform_output_buffer(yuv_data, t_y_ptr, t_u_ptr, t_v_ptr,
transform)
return result
def transform_output_buffer(self, yuv_data, y_out, u_out, v_out,
transform):
assert len(yuv_data) == self.input_size[0] * self.input_size[1] * 3 / 2
cast = self.ffi.cast
from_buffer = self.ffi.from_buffer
yuv_ptr = cast("unsigned char*", from_buffer(yuv_data))
transform_ptr = self.ffi.new("float[]", transform)
y_out_ptr = cast("unsigned char*", from_buffer(y_out))
u_out_ptr = cast("unsigned char*", from_buffer(u_out))
v_out_ptr = cast("unsigned char*", from_buffer(v_out))
self.clib.visiontest_transform(self._visiontest_c, yuv_ptr, y_out_ptr,
u_out_ptr, v_out_ptr, transform_ptr)
def close(self):
self.clib.visiontest_destroy(self._visiontest_c)
self._visiontest_c = None
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.close()
if __name__ == "__main__":
VisionTest((560, 304), (320, 160), "temporal")