import os
import unittest
from mskpp import vexp, vln, Tensor, Chip
from mskpp._C import task_schedule
from test.utils.test_base import TestBase
UB_MEM = "UB"
GM_MEM = "GM"
FP_16_TYPE = "FP16"
FP_32_TYPE = "FP32"
FORMAT_TYPE = "ND"
def my_vexp(gm_x, gm_y):
ub_x = Tensor(UB_MEM)
ub_y = Tensor(UB_MEM)
ub_x.load(gm_x)
out = vexp(ub_x, ub_y)()
z = out[0]
return z
def my_vln(gm_x, gm_y):
ub_x = Tensor(UB_MEM)
ub_y = Tensor(UB_MEM)
ub_x.load(gm_x)
out = vln(ub_x, ub_y)()
z = out[0]
return z
class TestUtilsMethods(TestBase):
TRACE_FILE = 'trace.json'
def clean(self):
task_schedule.Schedule().clean()
work_dir = os.getcwd()
self.batch_delete_folders(work_dir, 'MSKPP_*')
def test_vexp_vln_normal_expect_trace_successful_create(self):
with Chip("Ascend910B1") as chip:
chip.enable_trace()
in_x = Tensor(GM_MEM, FP_16_TYPE, [4, 2048], format=FORMAT_TYPE)
in_y = Tensor(GM_MEM, FP_16_TYPE, [8, 2048], format=FORMAT_TYPE)
in_x_fp32 = Tensor(GM_MEM, FP_32_TYPE, [4, 2048], format=FORMAT_TYPE)
in_y_fp32 = Tensor(GM_MEM, FP_32_TYPE, [8, 2048], format=FORMAT_TYPE)
out_y1 = my_vexp(in_x, in_y[0:4, :])
out_y2 = my_vln(in_x, in_y[4:8, :])
out_y1_fp32 = my_vexp(in_x_fp32, in_y_fp32[0:4, :])
out_y2_fp32 = my_vln(in_x_fp32, in_y_fp32[4:8, :])
in_y.load(out_y1)
in_y.load(out_y2)
in_y_fp32.load(out_y1_fp32)
in_y_fp32.load(out_y2_fp32)
trace_file = os.path.join(chip.output_dir, self.TRACE_FILE)
self.assertTrue(os.path.exists(trace_file))
self.clean()
if __name__ == '__main__':
unittest.main()