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image_client.py
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image_client.py
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#!/usr/bin/env python
# Copyright 2020-2022, NVIDIA CORPORATION & AFFILIATES. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# * Neither the name of NVIDIA CORPORATION nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
# EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
# PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
# OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import argparse
from functools import partial
import os
import sys
from PIL import Image
import numpy as np
from attrdict import AttrDict
import tritonclient.grpc as grpcclient
import tritonclient.grpc.model_config_pb2 as mc
import tritonclient.http as httpclient
from tritonclient.utils import InferenceServerException
from tritonclient.utils import triton_to_np_dtype
if sys.version_info >= (3, 0):
import queue
else:
import Queue as queue
class UserData:
def __init__(self):
self._completed_requests = queue.Queue()
# Callback function used for async_stream_infer()
def completion_callback(user_data, result, error):
# passing error raise and handling out
user_data._completed_requests.put((result, error))
FLAGS = None
def parse_model(model_metadata, model_config):
"""
Check the configuration of a model to make sure it meets the
requirements for an image classification network (as expected by
this client)
"""
if len(model_metadata.inputs) != 1:
raise Exception("expecting 1 input, got {}".format(
len(model_metadata.inputs)))
if len(model_metadata.outputs) != 1:
raise Exception("expecting 1 output, got {}".format(
len(model_metadata.outputs)))
if len(model_config.input) != 1:
raise Exception(
"expecting 1 input in model configuration, got {}".format(
len(model_config.input)))
input_metadata = model_metadata.inputs[0]
input_config = model_config.input[0]
output_metadata = model_metadata.outputs[0]
if output_metadata.datatype != "FP32":
raise Exception("expecting output datatype to be FP32, model '" +
model_metadata.name + "' output type is " +
output_metadata.datatype)
# Output is expected to be a vector. But allow any number of
# dimensions as long as all but 1 is size 1 (e.g. { 10 }, { 1, 10
# }, { 10, 1, 1 } are all ok). Ignore the batch dimension if there
# is one.
output_batch_dim = (model_config.max_batch_size > 0)
non_one_cnt = 0
for dim in output_metadata.shape:
if output_batch_dim:
output_batch_dim = False
elif dim > 1:
non_one_cnt += 1
if non_one_cnt > 1:
raise Exception("expecting model output to be a vector")
# Model input must have 3 dims, either CHW or HWC (not counting
# the batch dimension), either CHW or HWC
input_batch_dim = (model_config.max_batch_size > 0)
expected_input_dims = 3 + (1 if input_batch_dim else 0)
if len(input_metadata.shape) != expected_input_dims:
raise Exception(
"expecting input to have {} dimensions, model '{}' input has {}".
format(expected_input_dims, model_metadata.name,
len(input_metadata.shape)))
if type(input_config.format) == str:
FORMAT_ENUM_TO_INT = dict(mc.ModelInput.Format.items())
input_config.format = FORMAT_ENUM_TO_INT[input_config.format]
if ((input_config.format != mc.ModelInput.FORMAT_NCHW) and
(input_config.format != mc.ModelInput.FORMAT_NHWC)):
raise Exception("unexpected input format " +
mc.ModelInput.Format.Name(input_config.format) +
", expecting " +
mc.ModelInput.Format.Name(mc.ModelInput.FORMAT_NCHW) +
" or " +
mc.ModelInput.Format.Name(mc.ModelInput.FORMAT_NHWC))
if input_config.format == mc.ModelInput.FORMAT_NHWC:
h = input_metadata.shape[1 if input_batch_dim else 0]
w = input_metadata.shape[2 if input_batch_dim else 1]
c = input_metadata.shape[3 if input_batch_dim else 2]
else:
c = input_metadata.shape[1 if input_batch_dim else 0]
h = input_metadata.shape[2 if input_batch_dim else 1]
w = input_metadata.shape[3 if input_batch_dim else 2]
return (model_config.max_batch_size, input_metadata.name,
output_metadata.name, c, h, w, input_config.format,
input_metadata.datatype)
def preprocess(img, format, dtype, c, h, w, scaling, protocol):
"""
Pre-process an image to meet the size, type and format
requirements specified by the parameters.
"""
# np.set_printoptions(threshold='nan')
if c == 1:
sample_img = img.convert('L')
else:
sample_img = img.convert('RGB')
resized_img = sample_img.resize((w, h), Image.BILINEAR)
resized = np.array(resized_img)
if resized.ndim == 2:
resized = resized[:, :, np.newaxis]
npdtype = triton_to_np_dtype(dtype)
typed = resized.astype(npdtype)
if scaling == 'INCEPTION':
scaled = (typed / 127.5) - 1
elif scaling == 'VGG':
if c == 1:
scaled = typed - np.asarray((128,), dtype=npdtype)
else:
scaled = typed - np.asarray((123, 117, 104), dtype=npdtype)
else:
scaled = typed
# Swap to CHW if necessary
if format == mc.ModelInput.FORMAT_NCHW:
ordered = np.transpose(scaled, (2, 0, 1))
else:
ordered = scaled
# Channels are in RGB order. Currently model configuration data
# doesn't provide any information as to other channel orderings
# (like BGR) so we just assume RGB.
return ordered
def postprocess(results, output_name, batch_size, supports_batching):
"""
Post-process results to show classifications.
"""
output_array = results.as_numpy(output_name)
if supports_batching and len(output_array) != batch_size:
raise Exception("expected {} results, got {}".format(
batch_size, len(output_array)))
# Include special handling for non-batching models
for results in output_array:
if not supports_batching:
results = [results]
for result in results:
if output_array.dtype.type == np.object_:
cls = "".join(chr(x) for x in result).split(':')
else:
cls = result.split(':')
print(" {} ({}) = {}".format(cls[0], cls[1], cls[2]))
def requestGenerator(batched_image_data, input_name, output_name, dtype, FLAGS):
protocol = FLAGS.protocol.lower()
if protocol == "grpc":
client = grpcclient
else:
client = httpclient
# Set the input data
inputs = [client.InferInput(input_name, batched_image_data.shape, dtype)]
inputs[0].set_data_from_numpy(batched_image_data)
outputs = [
client.InferRequestedOutput(output_name, class_count=FLAGS.classes)
]
yield inputs, outputs, FLAGS.model_name, FLAGS.model_version
def convert_http_metadata_config(_metadata, _config):
_model_metadata = AttrDict(_metadata)
_model_config = AttrDict(_config)
return _model_metadata, _model_config
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument('-v',
'--verbose',
action="store_true",
required=False,
default=False,
help='Enable verbose output')
parser.add_argument('-a',
'--async',
dest="async_set",
action="store_true",
required=False,
default=False,
help='Use asynchronous inference API')
parser.add_argument('--streaming',
action="store_true",
required=False,
default=False,
help='Use streaming inference API. ' +
'The flag is only available with gRPC protocol.')
parser.add_argument('-m',
'--model-name',
type=str,
required=True,
help='Name of model')
parser.add_argument(
'-x',
'--model-version',
type=str,
required=False,
default="",
help='Version of model. Default is to use latest version.')
parser.add_argument('-b',
'--batch-size',
type=int,
required=False,
default=1,
help='Batch size. Default is 1.')
parser.add_argument('-c',
'--classes',
type=int,
required=False,
default=1,
help='Number of class results to report. Default is 1.')
parser.add_argument(
'-s',
'--scaling',
type=str,
choices=['NONE', 'INCEPTION', 'VGG'],
required=False,
default='NONE',
help='Type of scaling to apply to image pixels. Default is NONE.')
parser.add_argument('-u',
'--url',
type=str,
required=False,
default='localhost:8000',
help='Inference server URL. Default is localhost:8000.')
parser.add_argument('-i',
'--protocol',
type=str,
required=False,
default='HTTP',
help='Protocol (HTTP/gRPC) used to communicate with ' +
'the inference service. Default is HTTP.')
parser.add_argument('image_filename',
type=str,
nargs='?',
default=None,
help='Input image / Input folder.')
FLAGS = parser.parse_args()
if FLAGS.streaming and FLAGS.protocol.lower() != "grpc":
raise Exception("Streaming is only allowed with gRPC protocol")
try:
if FLAGS.protocol.lower() == "grpc":
# Create gRPC client for communicating with the server
triton_client = grpcclient.InferenceServerClient(
url=FLAGS.url, verbose=FLAGS.verbose)
else:
# Specify large enough concurrency to handle the
# the number of requests.
concurrency = 20 if FLAGS.async_set else 1
triton_client = httpclient.InferenceServerClient(
url=FLAGS.url, verbose=FLAGS.verbose, concurrency=concurrency)
except Exception as e:
print("client creation failed: " + str(e))
sys.exit(1)
# Make sure the model matches our requirements, and get some
# properties of the model that we need for preprocessing
try:
model_metadata = triton_client.get_model_metadata(
model_name=FLAGS.model_name, model_version=FLAGS.model_version)
except InferenceServerException as e:
print("failed to retrieve the metadata: " + str(e))
sys.exit(1)
try:
model_config = triton_client.get_model_config(
model_name=FLAGS.model_name, model_version=FLAGS.model_version)
except InferenceServerException as e:
print("failed to retrieve the config: " + str(e))
sys.exit(1)
if FLAGS.protocol.lower() == "grpc":
model_config = model_config.config
else:
model_metadata, model_config = convert_http_metadata_config(
model_metadata, model_config)
max_batch_size, input_name, output_name, c, h, w, format, dtype = parse_model(
model_metadata, model_config)
supports_batching = max_batch_size > 0
if not supports_batching and FLAGS.batch_size != 1:
print("ERROR: This model doesn't support batching.")
sys.exit(1)
filenames = []
if os.path.isdir(FLAGS.image_filename):
filenames = [
os.path.join(FLAGS.image_filename, f)
for f in os.listdir(FLAGS.image_filename)
if os.path.isfile(os.path.join(FLAGS.image_filename, f))
]
else:
filenames = [
FLAGS.image_filename,
]
filenames.sort()
# Preprocess the images into input data according to model
# requirements
image_data = []
for filename in filenames:
img = Image.open(filename)
image_data.append(
preprocess(img, format, dtype, c, h, w, FLAGS.scaling,
FLAGS.protocol.lower()))
# Send requests of FLAGS.batch_size images. If the number of
# images isn't an exact multiple of FLAGS.batch_size then just
# start over with the first images until the batch is filled.
requests = []
responses = []
result_filenames = []
request_ids = []
image_idx = 0
last_request = False
user_data = UserData()
# Holds the handles to the ongoing HTTP async requests.
async_requests = []
sent_count = 0
if FLAGS.streaming:
triton_client.start_stream(partial(completion_callback, user_data))
while not last_request:
input_filenames = []
repeated_image_data = []
for idx in range(FLAGS.batch_size):
input_filenames.append(filenames[image_idx])
repeated_image_data.append(image_data[image_idx])
image_idx = (image_idx + 1) % len(image_data)
if image_idx == 0:
last_request = True
if supports_batching:
batched_image_data = np.stack(repeated_image_data, axis=0)
else:
batched_image_data = repeated_image_data[0]
# Send request
try:
for inputs, outputs, model_name, model_version in requestGenerator(
batched_image_data, input_name, output_name, dtype, FLAGS):
sent_count += 1
if FLAGS.streaming:
triton_client.async_stream_infer(
FLAGS.model_name,
inputs,
request_id=str(sent_count),
model_version=FLAGS.model_version,
outputs=outputs)
elif FLAGS.async_set:
if FLAGS.protocol.lower() == "grpc":
triton_client.async_infer(
FLAGS.model_name,
inputs,
partial(completion_callback, user_data),
request_id=str(sent_count),
model_version=FLAGS.model_version,
outputs=outputs)
else:
async_requests.append(
triton_client.async_infer(
FLAGS.model_name,
inputs,
request_id=str(sent_count),
model_version=FLAGS.model_version,
outputs=outputs))
else:
responses.append(
triton_client.infer(FLAGS.model_name,
inputs,
request_id=str(sent_count),
model_version=FLAGS.model_version,
outputs=outputs))
except InferenceServerException as e:
print("inference failed: " + str(e))
if FLAGS.streaming:
triton_client.stop_stream()
sys.exit(1)
if FLAGS.streaming:
triton_client.stop_stream()
if FLAGS.protocol.lower() == "grpc":
if FLAGS.streaming or FLAGS.async_set:
processed_count = 0
while processed_count < sent_count:
(results, error) = user_data._completed_requests.get()
processed_count += 1
if error is not None:
print("inference failed: " + str(error))
sys.exit(1)
responses.append(results)
else:
if FLAGS.async_set:
# Collect results from the ongoing async requests
# for HTTP Async requests.
for async_request in async_requests:
responses.append(async_request.get_result())
for response in responses:
if FLAGS.protocol.lower() == "grpc":
this_id = response.get_response().id
else:
this_id = response.get_response()["id"]
print("Request {}, batch size {}".format(this_id, FLAGS.batch_size))
postprocess(response, output_name, FLAGS.batch_size, supports_batching)
print("PASS")