def test_cli_convert_validater_switch(self):
iris = load_iris()
X, y = iris.data, iris.target
X_train, X_test, y_train, _ = train_test_split(X, y, random_state=11)
clr = LogisticRegression()
clr.fit(X_train, y_train)
temp = get_temp_folder(__file__, "temp_cli_convert_validate_switch")
data = os.path.join(temp, "data.csv")
pandas.DataFrame(X_test).to_csv(data, index=False)
pkl = os.path.join(temp, "model.pkl")
with open(pkl, "wb") as f:
pickle.dump(clr, f)
res = convert_validate(pkl=pkl, data=data, verbose=0,
method="predict,predict_proba",
name="output_label,output_probability")
st = BufferedPrint()
args = ["convert_validate", "--pkl", pkl, '--data', data,
'--method', "predict,predict_proba",
'--name', "output_label,output_probability",
'--verbose', '1', '--use_double', 'switch']
main(args, fLOG=st.fprint)
res = str(st)
self.assertIn(
"[convert_validate] compute predictions with method 'predict_proba'", res)
def test_cli_validate_kmeans(self):
temp = get_temp_folder(__file__, "temp_validate_runtime_kmeans")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
gr = os.path.join(temp, 'gr.png')
st = BufferedPrint()
main(args=[
"validate_runtime", "--n_features", "4,50", "-nu", "3", "-re", "3",
"-o", "11", "-op", "11", "-v", "2", "--out_raw", out1,
"--out_summary", out2, "-b", "1", "--runtime",
"python_compiled,onnxruntime1", "--models", "KMeans",
"--out_graph", gr, "--dtype", "32"
],
fLOG=st.fprint)
res = str(st)
self.assertIn('KMeans', res)
self.assertExists(out1)
self.assertExists(out2)
self.assertExists(gr)
df1 = pandas.read_csv(out1)
merged = merge_benchmark({
'r1-': df1,
'r2-': df1.copy()
},
baseline='r1-onnxruntime1')
add_cols = list(
sorted(c for c in merged.columns if c.endswith('-base')))
suma = summary_report(merged, add_cols=add_cols)
self.assertEqual(merged.shape[0], suma.shape[0])
self.assertIn('N=10-base', suma.columns)
outdf = os.path.join(temp, "merged.xlsx")
suma.to_excel(outdf, index=False)
def test_onnx_stats(self):
iris = load_iris()
X, y = iris.data, iris.target
X_train, X_test, y_train, _ = train_test_split(X, y, random_state=11)
clr = LogisticRegression()
clr.fit(X_train, y_train)
temp = get_temp_folder(__file__, "temp_onnx_stats")
data = os.path.join(temp, "data.csv")
pandas.DataFrame(X_test).to_csv(data, index=False)
pkl = os.path.join(temp, "model.pkl")
with open(pkl, "wb") as f:
pickle.dump(clr, f)
outonnx = os.path.join(temp, 'outolr.onnx')
convert_validate(pkl=pkl,
data=data,
verbose=0,
method="predict,predict_proba",
outonnx=outonnx,
name="output_label,output_probability")
st = BufferedPrint()
main(args=["onnx_stats", "--name", outonnx], fLOG=st.fprint)
res = str(st)
self.assertIn("ninits: 0", res)
def test_cli_validate_model_lightgbm(self):
temp = get_temp_folder(__file__, "temp_validate_model_lgbm_csv")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", "LGBMClassifier", '-o', '10', '-op', '10', '-v', '2',
'-b', '1', '-dum', '1', '-du', temp
],
fLOG=st.fprint)
res = str(st)
self.assertIn('LGBMClassifier', res)
self.assertExists(out1)
self.assertExists(out2)
exp1 = os.path.join(
temp,
"dump-ERROR-python-LGBMClassifier-default-b-cl--op10-nf4.pkl")
exp2 = os.path.join(
temp, "dump-i-python-LGBMClassifier-default-b-cl-lightgbm.sklearn"
".LGBMClassifierzipmapFalse-op10-nf4.pkl")
if not os.path.exists(exp1) and not os.path.exists(exp2):
names = os.listdir(temp)
raise FileNotFoundError(
"Unable to find '{}' or '{}' in\n{}.".format(
exp1, exp2, '\n'.join(names)))
def test_cli_validate_model_process_csv(self):
temp = get_temp_folder(__file__, "temp_validate_model_process_csv")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
main(
args=[
"validate_runtime",
"--out_raw",
out1,
"--out_summary",
out2,
"--models",
"LogisticRegression,LinearRegression",
'-o',
'10',
'-op',
'11',
'-v',
'3',
'-b',
'1',
'-se',
'1',
# '-d', '1',
],
fLOG=st.fprint)
res = str(st)
self.assertIn('Linear', res)
self.assertExists(out1)
self.assertExists(out2)
def test_cli_csv_perm(self):
temp = get_temp_folder(__file__, "temp_cli_csv_perm")
name = os.path.join(temp, "res.csv")
st = BufferedPrint()
main(args=["einsum_test", "--equation", "abc,cd->ad",
"--output", name, "--shape", "(5,5,5);(5,5)",
"--verbose", "0", "--perm", "1"], fLOG=st.fprint)
self.assertExists(name)
res = str(st)
self.assertIn("wrote", res)
def test_cli_validate_model_dump(self):
fLOG(OutputPrint=__name__ == "__main__")
temp = get_temp_folder(__file__, "temp_validate_model_dump")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
graph = os.path.join(temp, 'benchmark.png')
st = BufferedPrint()
models = ','.join([
"LinearRegression",
"LogisticRegression",
"DecisionTreeRegressor",
# "DecisionTreeClassifier",
])
# ~ models = ','.join([
#~ 'KMeans',
#~ 'LGBMClassifier',
#~ 'LGBMRegressor',
#~ 'LinearSVC',
#~ 'LogisticRegression',
#~ 'MLPClassifier',
#~ 'MLPRegressor',
#~ 'RandomForestClassifier',
#~ 'Perceptron',
#~ 'RandomForestClassifier',
#~ 'Ridge',
#~ 'SGDRegressor',
#~ 'RandomForestRegressor',
# ~ ])
args = [
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", models, '-r', "python,onnxruntime1", '-o', '10', '-op',
'10', '-v', '1', '-b', '1', '-dum', '1', '-du', temp, '-n',
'20,100,500', '--out_graph', graph, '--dtype', '32'
]
cmd = "python -m mlprodict " + " ".join(args)
fLOG(cmd)
main(args=args, fLOG=fLOG if __name__ == "__main__" else st.fprint)
names = os.listdir(temp)
names = [_ for _ in names if "dump-i-" in _]
self.assertNotEmpty(names)
for i, name in enumerate(names):
fLOG("{}/{}: {}".format(i + 1, len(names), name))
fullname = os.path.join(temp, name)
with open(fullname, 'rb') as f:
pkl = pickle.load(f)
root = os.path.splitext(fullname)[0]
with open(root + '.onnx', 'wb') as f:
f.write(pkl['onnx_bytes'])
with open(root + '.data.pkl', 'wb') as f:
pickle.dump(pkl['Xort_test'], f)
with open(root + '.ypred.pkl', 'wb') as f:
pickle.dump(pkl['ypred'], f)
with open(root + '.skl.pkl', 'wb') as f:
pickle.dump(pkl['skl_model'], f)
def test_cli_validate_bench_doc(self):
temp = get_temp_folder(__file__, "temp_bench_doc")
out1 = os.path.join(temp, "raw.xlsx")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
main(args=[
"benchmark_doc", "-o", out1, "-ou", out2, "-w", "LinearRegression",
'-d', temp, '-r', 'python_compiled'
],
fLOG=st.fprint)
res = str(st)
self.assertIn('Linear', res)
self.assertExists(out1)
self.assertExists(out2)
def test_cli_asv2csv(self):
temp = get_temp_folder(__file__, "temp_asv2csv")
file_zip = os.path.join(TestCliAsvBench.data, 'results.zip')
unzip_files(file_zip, temp)
data = os.path.join(temp, 'results')
out = os.path.join(temp, "data.csv")
st = BufferedPrint()
main(args=["asv2csv", "-f", data, "-o", out], fLOG=st.fprint)
self.assertExists(out)
df = pandas.read_csv(out)
self.assertEqual(df.shape, (168, 66))
out = os.path.join(temp, "data<date>.csv")
main(args=["asv2csv", "-f", data, "-o", out], fLOG=st.fprint)
def test_cli_plot_onnx(self):
temp = get_temp_folder(__file__, "temp_cli_plot_onnx")
name = os.path.join(temp, "..", "..", "ut_tools", "data",
"fft2d_any.onnx")
self.assertExists(name)
for fmt in ['simple', 'dot', 'io', 'raw']:
with self.subTest(fmt=fmt):
output = os.path.join(temp, "code_%s.py" % fmt)
st = BufferedPrint()
main(args=[
"plot_onnx", "--filename", name, '--format', fmt,
"--output", output, "--verbose", "1"
],
fLOG=st.fprint)
self.assertExists(output)
def test_cli_validate_model_csv_bug(self):
temp = get_temp_folder(__file__, "temp_validate_model_csv_bug")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", "AgglomerativeClustering", '-o', '10', '-op', '10',
'-v', '1', '-b', '1'
],
fLOG=st.fprint)
res = str(st)
self.assertIn('AgglomerativeClustering', res)
self.assertExists(out1)
self.assertExists(out2)
def test_cli_validate_model_lightgbm(self):
temp = get_temp_folder(__file__, "temp_validate_model_lgbm_csv")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", "LGBMClassifier", '-o', '10', '-op', '10', '-v', '1',
'-b', '1'
],
fLOG=st.fprint)
res = str(st)
self.assertIn('LGBMClassifier', res)
self.assertExists(out1)
self.assertExists(out2)
def test_cli_onnx_code_numpy(self):
temp = get_temp_folder(__file__, "temp_cli_onnx_code_numpy")
name = os.path.join(temp, "..", "..", "ut_tools", "data",
"fft2d_any.onnx")
self.assertExists(name)
output = os.path.join(temp, "code_numpy.py")
st = BufferedPrint()
main(args=[
"onnx_code", "--filename", name, '--format', 'numpy', "--output",
output, "--verbose", "1"
],
fLOG=st.fprint)
self.assertExists(output)
with open(output, "r", encoding='utf-8') as f:
content = f.read()
self.assertIn("def numpy_", content)
def test_cli_validate_model(self):
temp = get_temp_folder(__file__, "temp_validate_model")
out1 = os.path.join(temp, "raw.xlsx")
out2 = os.path.join(temp, "sum.xlsx")
st = BufferedPrint()
main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", "LogisticRegression,LinearRegression", '-o', '10',
'-op', '10', '-v', '1', '-b', '1', '-t',
'{"1":{"number":10,"repeat":10},"10":{"number":5,"repeat":5}}'
],
fLOG=st.fprint)
res = str(st)
self.assertIn('Linear', res)
self.assertExists(out1)
self.assertExists(out2)
def test_cli_asv_bench_model(self):
temp = get_temp_folder(__file__, "temp_asv_bench")
st = BufferedPrint()
main(args=["asv_bench", "-l", temp,
"-o", '10', '-m',
"LogisticRegression,LinearRegression",
'-v', '2', '--flat', '1',
'--matrix', '{"onnxruntime":["1.1.1","1.1.2"]}'],
fLOG=st.fprint)
res = str(st)
self.assertIn('Lin', res)
name = "bench_LogReg_liblinear_b_cl_solverliblinear_onnx.py"
self.assertExists(os.path.join(temp, 'benches', name))
self.assertExists(os.path.join(temp, 'asv.conf.json'))
self.assertExists(os.path.join(temp, 'tools', 'flask_serve.py'))
conf = os.path.join(temp, 'asv.conf.json')
with open(conf, "r") as f:
content = f.read()
self.assertIn('"1.1.1"', content)
def test_cli_convert_validater_float64_gpr(self):
iris = load_iris()
X, y = iris.data, iris.target
X_train, X_test, y_train, _ = train_test_split(X, y, random_state=11)
clr = GaussianProcessRegressor()
clr.fit(X_train, y_train)
temp = get_temp_folder(__file__,
"temp_cli_convert_validate_float64_gpr")
monx = os.path.join(temp, "gpr.onnx")
data = os.path.join(temp, "data.csv")
pandas.DataFrame(X_test).to_csv(data, index=False)
pkl = os.path.join(temp, "model.pkl")
with open(pkl, "wb") as f:
pickle.dump(clr, f)
try:
res = convert_validate(
pkl=pkl,
data=data,
verbose=0,
method="predict",
name="GPmean",
use_double='float64',
options="{GaussianProcessRegressor:{'optim':'cdist'}}")
except RuntimeError as e:
if "requested version 10 < 11 schema version" in str(e):
return
raise e
self.assertNotEmpty(res)
st = BufferedPrint()
args = [
"convert_validate", "--pkl", pkl, '--data', data, '--method',
"predict", '--name', "GPmean", '--verbose', '1', '--use_double',
'float64', '--options',
"{GaussianProcessRegressor:{'optim':'cdist'}}", '--outonnx', monx
]
main(args, fLOG=st.fprint)
res = str(st)
self.assertExists(monx)
with open(monx, 'rb') as f:
model = onnx.load(f)
self.assertIn('CDist', str(model))
def test_cli_benchmark_replay(self):
temp = get_temp_folder(__file__, "temp_benchmark_replay")
out1 = os.path.join(temp, "raw.csv")
st = BufferedPrint()
out1 = os.path.join(temp, "raw.csv")
st = BufferedPrint()
main(args=["validate_runtime", "--n_features", "4", "-nu", "3",
"-re", "3", "-o", "11", "-op", "11", "-v", "2", "--out_raw",
out1, "-b", "0",
"--runtime", "python_compiled",
"--models", "KMeans", "--dtype", "32",
"--dump_all", '1', '--dump_folder', temp],
fLOG=st.fprint)
out = os.path.join(temp, "res.xlsx")
main(args=["benchmark_replay", "--folder", temp, "--out", out, '--verbose', '2'],
fLOG=st.fprint)
res = str(st)
self.assertExists(out)
self.assertIn("'folder'", res)
def test_cli_validate_model_rfbug_410(self):
temp = get_temp_folder(__file__, "temp_validate_model_rfbug410")
out1 = os.path.join(temp, "raw.xlsx")
out2 = os.path.join(temp, "sum.xlsx")
gr = os.path.join(temp, 'gr.png')
st = BufferedPrint()
main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2, '-o',
'11', '-op', '11', '-v', '2', '-b', '1', '--runtime',
'python_compiled,onnxruntime1', '--models',
'RandomForestRegressor', '--n_features', '4,10', '--out_graph', gr,
'--dtype', '32'
],
fLOG=st.fprint)
res = str(st)
self.assertIn('RandomForestRegressor', res)
self.assertIn('time_kwargs', res)
self.assertExists(out1)
self.assertExists(out2)
self.assertExists(gr)
def test_cli_plot_onnx_tree(self):
temp = get_temp_folder(__file__, "temp_cli_plot_onnx_tree")
X, y = make_regression(n_features=2) # pylint: disable=W0632
tree = DecisionTreeRegressor()
tree.fit(X, y)
onx = to_onnx(tree,
X.astype(numpy.float32),
target_opset=__max_supported_opsets__)
name = os.path.join(temp, "tree.onnx")
with open(name, "wb") as f:
f.write(onx.SerializeToString())
self.assertExists(name)
for fmt in ['tree', 'mat']:
with self.subTest(fmt=fmt):
output = os.path.join(temp, "code_%s.py" % fmt)
st = BufferedPrint()
main(args=[
"plot_onnx", "--filename", name, '--format', fmt,
"--output", output, "--verbose", "1"
],
fLOG=st.fprint)
self.assertExists(output)
def test_cli_validate_model_csv_bug(self):
temp = get_temp_folder(__file__, "temp_validate_model_csv_bug")
out1 = os.path.join(temp, "raw.csv")
out2 = os.path.join(temp, "sum.csv")
st = BufferedPrint()
self.assertRaise(
lambda: main(args=[
"validate_runtime", "--out_raw", out1, "--out_summary", out2,
"--models", "AgglomerativeClustering", '-o', '10', '-op', '10',
'-v', '0', '-b', '1'
],
fLOG=st.fprint), RuntimeError,
"No result produced by the benchmark.")
res = str(st)
self.assertEmpty(res)
self.assertExists(out1)
self.assertNotExists(out2)
def test_cli_benchmark_replay_help(self):
st = BufferedPrint()
main(args=["benchmark_replay", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn('benchmark_replay', res)
def test_cli_onnx_code(self):
st = BufferedPrint()
main(args=["onnx_code", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("verbose", res)
def test_cli_validate(self):
st = BufferedPrint()
main(args=["validate_runtime", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("verbose", res)
def test_cli_validate_bench_doc_help(self):
st = BufferedPrint()
main(args=["benchmark_doc", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("verbose", res)
def test_cli_einsum(self):
st = BufferedPrint()
main(args=["einsum_test", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("verbose", res)
def test_cli_latency(self):
st = BufferedPrint()
main(args=["latency", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("latency", res)
def test_cli_onnx_stats(self):
st = BufferedPrint()
main(args=["onnx_stats", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("optim", res)
def test_cli_asv_bench(self):
st = BufferedPrint()
main(args=["asv_bench", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("verbose", res)
def test_cli_onnx_code(self):
st = BufferedPrint()
main(args=["dynamic_doc", '--verbose', '1'], fLOG=st.fprint)
res = str(st)
if len(res) > 0:
self.assertIn("Abs", res)
def test_cli_onnx_code_help(self):
st = BufferedPrint()
main(args=["dynamic_doc", "--help"], fLOG=st.fprint)
res = str(st)
self.assertIn("Generates", res)
