ModelBox-Gradio应用开发:YOLOv7动物目标检测【玩转华为云】
【摘要】 本章我们介绍了如何使用ModelBox开发一个动物目标检测的AI应用,我们只需要准备模型文件和简单的配置即可创建一个HTTP服务并在本地开发Gradio界面使用ModelBox进行推理。同时我们可以了解到图片标注、数据处理和模型训练方法,以及对应的推理应用逻辑。
ModelBox-Gradio应用开发:动物目标检测
一、准备环境
ModelBox端云协同AI开发套件(Windows)环境准备【视频教程】
二、应用开发
1. 创建工程
在ModelBox sdk目录下使用create.bat创建yolov7_pet工程
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> .\create.bat -t server -n yolov7_pet
(tensorflow) D:\modelbox-win10-x64-1.5.3>set BASE_PATH=D:\modelbox-win10-x64-1.5.3\
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PATH=D:\modelbox-win10-x64-1.5.3\\python-embed;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3\envs\tensorflow;C:\Users\yanso\miniconda3\envs\tensorflow\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\usr\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Scripts;C:\Users\yanso\miniconda3\envs\tensorflow\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\Library\usr\bin;C:\Users\yanso\miniconda3\Library\bin;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONPATH=
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONHOME=
(tensorflow) D:\modelbox-win10-x64-1.5.3>python.exe -u D:\modelbox-win10-x64-1.5.3\\create.py -t server -n yolov7_pet
sdk version is modelbox-win10-x64-1.5.3
dos2unix: converting file D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet/graph\modelbox.conf to Unix format...
dos2unix: converting file D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet/graph\yolov7_pet.toml to Unix format...
dos2unix: converting file D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet/bin\mock_task.toml to Unix format...
success: create yolov7_pet in D:\modelbox-win10-x64-1.5.3\workspacecreate.bat工具的参数中,-t表示所创建实例的类型,包括server(ModelBox工程)、python(Python功能单元)、c++(C++功能单元)、infer(推理功能单元)等;-n表示所创建实例的名称,开发者自行命名。
2. 创建推理功能单元
在ModelBox sdk目录下使用create.bat创建yolov7_infer推理功能单元
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> .\create.bat -t infer -n yolov7_infer -p yolov7_pet
(tensorflow) D:\modelbox-win10-x64-1.5.3>set BASE_PATH=D:\modelbox-win10-x64-1.5.3\
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PATH=D:\modelbox-win10-x64-1.5.3\\python-embed;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3\envs\tensorflow;C:\Users\yanso\miniconda3\envs\tensorflow\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\usr\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Scripts;C:\Users\yanso\miniconda3\envs\tensorflow\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\Library\usr\bin;C:\Users\yanso\miniconda3\Library\bin;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONPATH=
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONHOME=
(tensorflow) D:\modelbox-win10-x64-1.5.3>python.exe -u D:\modelbox-win10-x64-1.5.3\\create.py -t infer -n yolov7_infer -p yolov7_pet
sdk version is modelbox-win10-x64-1.5.3
success: create infer yolov7_infer in D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet/model/yolov7_infercreate.bat工具使用时,-t infer 即表示创建的是推理功能单元;-n xxx_infer 表示创建的功能单元名称为xxx_infer;-p yolov7_infer 表示所创建的功能单元属于yolov7_infer应用。
a. 下载转换好的模型
运行此Notebook下载转换好的ONNX格式模型
b. 修改模型配置文件
模型和配置文件保持在同级目录下
# Copyright (C) 2020 Huawei Technologies Co., Ltd. All rights reserved.
[base]
name = "yolov7_infer"
device = "cpu"
version = "1.0.0"
description = "your description"
entry = "./best.onnx" # model file path, use relative path
type = "inference"
virtual_type = "onnx" # inference engine type: win10 now only support onnx
group_type = "Inference" # flowunit group attribution, do not change
# Input ports description
[input]
[input.input1] # input port number, Format is input.input[N]
name = "Input" # input port name
type = "float" # input port data type ,e.g. float or uint8
device = "cpu" # input buffer type: cpu, win10 now copy input from cpu
# Output ports description
[output]
[output.output1] # output port number, Format is output.output[N]
name = "Output" # output port name
type = "float" # output port data type ,e.g. float or uint8
3. 创建后处理功能单元
在ModelBox sdk目录下使用create.bat创建yolov7_post后处理功能单元
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> .\create.bat -t python -n yolov7_post -p yolov7_pet
(tensorflow) D:\modelbox-win10-x64-1.5.3>set BASE_PATH=D:\modelbox-win10-x64-1.5.3\
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PATH=D:\modelbox-win10-x64-1.5.3\\python-embed;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3\envs\tensorflow;C:\Users\yanso\miniconda3\envs\tensorflow\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\usr\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Scripts;C:\Users\yanso\miniconda3\envs\tensorflow\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\Library\usr\bin;C:\Users\yanso\miniconda3\Library\bin;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONPATH=
(tensorflow) D:\modelbox-win10-x64-1.5.3>set PYTHONHOME=
(tensorflow) D:\modelbox-win10-x64-1.5.3>python.exe -u D:\modelbox-win10-x64-1.5.3\\create.py -t python -n yolov7_post -p yolov7_pet
sdk version is modelbox-win10-x64-1.5.3
success: create python yolov7_post in D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet/etc/flowunit/yolov7_posta. 修改配置文件
# Copyright (c) Huawei Technologies Co., Ltd. 2022. All rights reserved.
# Basic config
[base]
name = "yolov7_post" # The FlowUnit name
device = "cpu" # The flowunit runs on cpu
version = "1.0.0" # The version of the flowunit
type = "python" # Fixed value, do not change
description = "description" # The description of the flowunit
entry = "yolov7_post@yolov7_postFlowUnit" # Python flowunit entry function
group_type = "Generic" # flowunit group attribution, change as Input/Output/Image/Generic ...
# Flowunit Type
stream = false # Whether the flowunit is a stream flowunit
condition = false # Whether the flowunit is a condition flowunit
collapse = false # Whether the flowunit is a collapse flowunit
collapse_all = false # Whether the flowunit will collapse all the data
expand = false # Whether the flowunit is a expand flowunit
# The default Flowunit config
[config]
net_h = 640
net_w = 640
num_classes = 2
conf_threshold = 0.5
iou_threshold = 0.45
# Input ports description
[input]
[input.input1] # Input port number, the format is input.input[N]
name = "in_feat" # Input port name
type = "float" # Input port type
# Output ports description
[output]
[output.output1] # Output port number, the format is output.output[N]
name = "out_data" # Output port name
type = "string" # Output port typeb. 修改逻辑代码
# Copyright (c) Huawei Technologies Co., Ltd. 2022. All rights reserved.
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import _flowunit as modelbox
import numpy as np
import json
import cv2
class yolov7_postFlowUnit(modelbox.FlowUnit):
# Derived from modelbox.FlowUnit
def __init__(self):
super().__init__()
# Open the flowunit to obtain configuration information
def open(self, config):
# 获取功能单元的配置参数
self.params = {}
self.params['net_h'] = config.get_int('net_h')
self.params['net_w'] = config.get_int('net_w')
self.params['num_classes'] = config.get_int('num_classes')
self.params['conf_thre'] = config.get_float('conf_threshold')
self.params['nms_thre'] = config.get_float('iou_threshold')
self.num_classes = config.get_int('num_classes')
return modelbox.Status.StatusCode.STATUS_SUCCESS
# Process the data
def process(self, data_context):
# 从DataContext中获取输入输出BufferList对象
in_feat = data_context.input("in_feat")
out_data = data_context.output("out_data")
# yolov7_post process code.
# 循环处理每一个输入Buffer数据
for buffer_feat in in_feat:
# 将输入Buffer转换为numpy对象
feat_data = np.array(buffer_feat.as_object(), copy=False)
feat_data = feat_data.reshape((-1, self.num_classes + 5))
# 业务处理:解码yolov7模型的输出数据,得到检测框,转化为json数据
bboxes = self.postprocess(feat_data, self.params)
result = {"det_result": str(bboxes)}
# 将业务处理返回的结果数据转换为Buffer
result_str = json.dumps(result)
out_buffer = modelbox.Buffer(self.get_bind_device(), result_str)
# 将输出Buffer放入输出BufferList中
out_data.push_back(out_buffer)
return modelbox.Status.StatusCode.STATUS_SUCCESS
# model post-processing function
def postprocess(self, feat_data, params):
"""postprocess for yolo7 model"""
boxes = []
class_ids = []
confidences = []
for detection in feat_data:
scores = detection[5:]
class_id = np.argmax(scores)
if params['num_classes'] == 1:
confidence = detection[4]
else:
confidence = detection[4] * scores[class_id]
if confidence > params['conf_thre']:
center_x = detection[0] / params['net_w']
center_y = detection[1] / params['net_h']
width = detection[2] / params['net_w']
height = detection[3] / params['net_h']
left = center_x - width / 2
top = center_y - height / 2
class_ids.append(class_id)
confidences.append(confidence)
boxes.append([left, top, width, height])
# use nms algorithm in opencv
box_idx = cv2.dnn.NMSBoxes(boxes, confidences, params['conf_thre'], params['nms_thre'])
detections = []
for i in box_idx:
boxes[i][0] = max(0.0, boxes[i][0]) # [0, 1]
boxes[i][1] = max(0.0, boxes[i][1]) # [0, 1]
boxes[i][2] = min(1.0, boxes[i][0] + boxes[i][2]) # [0, 1]
boxes[i][3] = min(1.0, boxes[i][1] + boxes[i][3]) # [0, 1]
dets = np.concatenate(
[boxes[i], np.array([confidences[i]]), np.array([class_ids[i]])], 0).tolist()
detections.append(dets)
return detections
def close(self):
# Close the flowunit
return modelbox.Status()
def data_pre(self, data_context):
# Before streaming data starts
return modelbox.Status()
def data_post(self, data_context):
# After streaming data ends
return modelbox.Status()
def data_group_pre(self, data_context):
# Before all streaming data starts
return modelbox.Status()
def data_group_post(self, data_context):
# After all streaming data ends
return modelbox.Status()4. 修改流程图
yolov7_pet工程graph目录下存放流程图,默认的流程图yolov7_pet.toml与工程同名,其内容为(以Windows版ModelBox为例):
# Copyright (C) 2020 Huawei Technologies Co., Ltd. All rights reserved.
[driver]
dir = ["${HILENS_APP_ROOT}/etc/flowunit",
"${HILENS_APP_ROOT}/etc/flowunit/cpp",
"${HILENS_APP_ROOT}/model",
"${HILENS_MB_SDK_PATH}/flowunit"]
skip-default = true
[profile]
profile=false
trace=false
dir="${HILENS_DATA_DIR}/mb_profile"
[graph]
format = "graphviz"
graphconf = """digraph yolov7_pet {
node [shape=Mrecord]
queue_size = 4
batch_size = 1
input1[type=input,flowunit=input,device=cpu,deviceid=0]
httpserver_sync_receive[type=flowunit, flowunit=httpserver_sync_receive_v2, device=cpu, deviceid=0, time_out_ms=5000, endpoint="http://0.0.0.0:8083/v1/yolov7_pet", max_requests=100]
image_decoder[type=flowunit, flowunit=image_decoder, device=cpu, key="image_base64", queue_size=4]
image_resize[type=flowunit, flowunit=resize, device=cpu, deviceid=0, image_width=640, image_height=640]
image_transpose[type=flowunit, flowunit=packed_planar_transpose, device=cpu, deviceid=0]
normalize[type=flowunit flowunit=normalize device=cpu deviceid=0 standard_deviation_inverse="0.0039215686,0.0039215686,0.0039215686"]
yolov7_infer[type=flowunit, flowunit=yolov7_infer, device=cpu, deviceid=0, batch_size = 1]
yolov7_post[type=flowunit, flowunit=yolov7_post, device=cpu, deviceid=0]
httpserver_sync_reply[type=flowunit, flowunit=httpserver_sync_reply_v2, device=cpu, deviceid=0]
input1:input -> httpserver_sync_receive:in_url
httpserver_sync_receive:out_request_info -> image_decoder:in_encoded_image
image_decoder:out_image -> image_resize:in_image
image_resize:out_image -> image_transpose:in_image
image_transpose:out_image -> normalize:in_data
normalize:out_data -> yolov7_infer:Input
yolov7_infer:Output -> yolov7_post:in_feat
yolov7_post:out_data -> httpserver_sync_reply:in_reply_info
}"""
[flow]
desc = "yolov7_pet run in modelbox-win10-x64"
5. 准备动物图片和测试脚本
a. 动物图片
yolov7_pet工程data目录下存放动物图片文件夹test_imgs
b. 测试脚本
yolov7_pet工程data目录下新建测试脚本test_http.py,代码如下:
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) Huawei Technologies Co., Ltd. 2022. All rights reserved.
import os
import cv2
import json
import base64
import http.client
class HttpConfig:
'''http调用的参数配置'''
def __init__(self, host_ip, port, url, img_base64_str):
self.hostIP = host_ip
self.Port = port
self.httpMethod = "POST"
self.requstURL = url
self.headerdata = {
"Content-Type": "application/json"
}
self.test_data = {
"image_base64": img_base64_str
}
self.body = json.dumps(self.test_data)
def read_image(img_path):
'''读取图片数据并转为base64编码的字符串'''
img_data = cv2.imread(img_path)
img_str = cv2.imencode('.jpg', img_data)[1].tostring()
img_bin = base64.b64encode(img_str)
img_base64_str = str(img_bin, encoding='utf8')
return img_data, img_base64_str
def decode_car_bboxes(bbox_str, input_shape):
try:
labels = [0, 1] # cat, dog
bboxes = json.loads(json.loads(bbox_str)['det_result'])
bboxes = list(filter(lambda x: int(x[5]) in labels, bboxes))
except Exception as ex:
print(str(ex))
return []
else:
for bbox in bboxes:
bbox[0] = int(bbox[0] * input_shape[1])
bbox[1] = int(bbox[1] * input_shape[0])
bbox[2] = int(bbox[2] * input_shape[1])
bbox[3] = int(bbox[3] * input_shape[0])
return bboxes
def draw_bboxes(img_data, bboxes):
'''画框'''
for bbox in bboxes:
x1, y1, x2, y2, score, label = bbox
color = (0, 0, 255)
names = ['cat', 'dog']
score = '%.2f' % score
label = '%s:%s' % (names[int(label)], score)
cv2.rectangle(img_data, (x1, y1), (x2, y2), color, 2)
cv2.putText(img_data, label, (x1, y1 - 10), cv2.FONT_HERSHEY_TRIPLEX, 0.5, (0, 255, 0), thickness=1)
return img_data
def test_image(img_path, ip, port, url):
'''单张图片测试'''
img_data, img_base64_str = read_image(img_path)
http_config = HttpConfig(ip, port, url, img_base64_str)
conn = http.client.HTTPConnection(host=http_config.hostIP, port=http_config.Port)
conn.request(method=http_config.httpMethod, url=http_config.requstURL,
body=http_config.body, headers=http_config.headerdata)
response = conn.getresponse().read().decode()
print('response: ', response)
bboxes = decode_car_bboxes(response, img_data.shape)
imt_out = draw_bboxes(img_data, bboxes)
cv2.imwrite('./result-' + os.path.basename(img_path), imt_out)
if __name__ == "__main__":
port = 8083
ip = "127.0.0.1"
url = "/v1/yolov7_pet"
img_path = "./test.jpg"
img_folder = './test_imgs'
file_list = os.listdir(img_folder)
for img_file in file_list:
print("\n================ {} ================".format(img_file))
img_path = os.path.join(img_folder, img_file)
test_image(img_path, ip, port, url)
三、运行应用
在yolov7_pet工程目录下执行.\bin\main.bat运行应用:
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> cd D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet
(tensorflow) PS D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet> .\bin\main.bat
(tensorflow) D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet>set PATH=D:/modelbox-win10-x64-1.5.3/workspace/yolov7_pet/bin/../../../python-embed;D:/modelbox-win10-x64-1.5.3/workspace/yolov7_pet/bin/../../../modelbox-win10-x64/bin;D:/modelbox-win10-x64-1.5.3/workspace/yolov7_pet/bin/../dependence/lib;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3\envs\tensorflow;C:\Users\yanso\miniconda3\envs\tensorflow\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\usr\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Library\bin;C:\Users\yanso\miniconda3\envs\tensorflow\Scripts;C:\Users\yanso\miniconda3\envs\tensorflow\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Users\yanso\miniconda3\envs\tensorflow\lib\site-packages\pywin32_system32;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Library\mingw-w64\bin;C:\Users\yanso\miniconda3\Library\usr\bin;C:\Users\yanso\miniconda3\Library\bin;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\bin;C:\Users\yanso\miniconda3\condabin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin;C:\Windows\System32\HWAudioDriverLibs;C:\Windows\system32;C:\Windows;C:\Windows\System32\Wbem;C:\Windows\System32\WindowsPowerShell\v1.0;C:\Windows\System32\OpenSSH;C:\Users\Administrator\AppData\Local\Microsoft\WindowsApps;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0;C:\WINDOWS\System32\OpenSSH;C:\Program Files\Git\cmd;C:\Users\yanso\miniconda3;C:\Users\yanso\miniconda3\Scripts;C:\Users\yanso\miniconda3\Library\bin;.;C:\Program Files\Git LFS;C:\Users\yanso\AppData\Local\Microsoft\WindowsApps;.;C:\Users\yanso\AppData\Local\Programs\Microsoft VS Code\bin
(tensorflow) D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet>modelbox.exe -c D:/modelbox-win10-x64-1.5.3/workspace/yolov7_pet/bin/../graph/modelbox.conf
[2024-06-10 06:42:50,922][ WARN][ iva_config.cc:143 ] update vas url failed. Fault, no vas projectid or iva endpoint
open log file D:/modelbox-win10-x64-1.5.3/workspace/yolov7_pet/bin/../hilens_data_dir/log/modelbox.log failed, No error
input dims is:1,3,640,640,
output dims is:1,25200,7,HTTP服务启动后可以在另一个终端进行请求测试,进入yolov7_pet工程目录data文件夹中使用test_http.py脚本发起HTTP请求进行测试:
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> cd D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet\data
(tensorflow) PS D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet\data> python .\test_http.py
================ Abyssinian_1.jpg ================
.\test_http.py:33: DeprecationWarning: tostring() is deprecated. Use tobytes() instead.
img_str = cv2.imencode('.jpg', img_data)[1].tostring()
response: {"det_result": "[[0.554308044910431, 0.1864600658416748, 0.7089953303337098, 0.3776256084442139, 0.82369065284729, 0.0]]"}
================ saint_bernard_143.jpg ================
response: {"det_result": "[[0.46182055473327643, 0.30239262580871584, 0.8193012714385988, 0.4969032764434815, 0.7603430151939392, 1.0]]"}
yolov7_pet工程data目录下新建Gradio脚本gradio_app.py,代码如下:
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) Huawei Technologies Co., Ltd. 2022. All rights reserved.
import os
import cv2
import json
import base64
import http.client
import gradio as gr
class HttpConfig:
'''http调用的参数配置'''
def __init__(self, host_ip, port, url, img_base64_str):
self.hostIP = host_ip
self.Port = port
self.httpMethod = "POST"
self.requstURL = url
self.headerdata = {
"Content-Type": "application/json"
}
self.test_data = {
"image_base64": img_base64_str
}
self.body = json.dumps(self.test_data)
def read_image(img_path):
'''读取图片数据并转为base64编码的字符串'''
img_data = cv2.imread(img_path)
img_str = cv2.imencode('.jpg', img_data)[1].tobytes()
img_bin = base64.b64encode(img_str)
img_base64_str = str(img_bin, encoding='utf8')
return img_data, img_base64_str
def decode_car_bboxes(bbox_str, input_shape):
try:
labels = [0, 1] # cat, dog
bboxes = json.loads(json.loads(bbox_str)['det_result'])
bboxes = list(filter(lambda x: int(x[5]) in labels, bboxes))
except Exception as ex:
print(str(ex))
return []
else:
for bbox in bboxes:
bbox[0] = int(bbox[0] * input_shape[1])
bbox[1] = int(bbox[1] * input_shape[0])
bbox[2] = int(bbox[2] * input_shape[1])
bbox[3] = int(bbox[3] * input_shape[0])
return bboxes
def draw_bboxes(img_data, bboxes):
'''画框'''
for bbox in bboxes:
x1, y1, x2, y2, score, label = bbox
color = (0, 0, 255)
names = ['cat', 'dog']
score = '%.2f' % score
label = '%s:%s' % (names[int(label)], score)
cv2.rectangle(img_data, (x1, y1), (x2, y2), color, 2)
cv2.putText(img_data, label, (x1, y1 - 10), cv2.FONT_HERSHEY_TRIPLEX, 0.5, (0, 255, 0), thickness=1)
return img_data
def test_image(img_path):
try:
'''单张图片测试'''
print(img_path)
img_data, img_base64_str = read_image(img_path)
http_config = HttpConfig(ip, port, url, img_base64_str)
conn = http.client.HTTPConnection(host=http_config.hostIP, port=http_config.Port)
conn.request(method=http_config.httpMethod, url=http_config.requstURL,
body=http_config.body, headers=http_config.headerdata)
response = conn.getresponse().read().decode()
print('response: ', response)
bboxes = decode_car_bboxes(response, img_data.shape)
imt_out = draw_bboxes(img_data, bboxes)
except Exception as ex:
print(str(ex))
return None
else:
return imt_out[..., ::-1]
def reset_state():
return None
if __name__ == "__main__":
port = 8083
ip = "127.0.0.1"
url = "/v1/yolov7_pet"
with gr.Blocks() as demo:
with gr.Row():
gr.HTML("""<h1 align="center">ModelBod-YOLOv7</h1>""")
with gr.Row():
inputs = gr.Image(type='filepath')
outputs = gr.Image()
with gr.Row():
with gr.Column():
button = gr.Button("Submit")
button.click(fn=test_image, inputs=inputs, outputs=outputs, show_progress=True)
with gr.Column():
emptyBtn = gr.Button("Clear")
emptyBtn.click(reset_state, outputs=outputs)
demo.launch()新建一个终端安装Gradio依赖包:
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> D:\modelbox-win10-x64-1.5.3\python-embed\python.exe -m pip install gradioHTTP服务启动后可以在新建终端中运行Gradio应用,进入yolov7_pet工程目录data文件夹中运行gradio_app.py脚本启动Gradio应用:
(tensorflow) PS D:\modelbox-win10-x64-1.5.3> cd D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet\data
(tensorflow) PS D:\modelbox-win10-x64-1.5.3\workspace\yolov7_pet\data> D:\modelbox-win10-x64-1.5.3\python-embed\python.exe .\gradio_app.py
Running on local URL: http://127.0.0.1:7860
To create a public link, set `share=True` in `launch()`.复制本地URL链接在浏览器中打开:
四、小结
本章我们介绍了如何使用ModelBox开发一个动物目标检测的AI应用,我们只需要准备模型文件和简单的配置即可创建一个HTTP服务并在本地开发Gradio界面使用ModelBox进行推理。同时我们可以了解到图片标注、数据处理和模型训练方法,以及对应的推理应用逻辑。
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