agent_for_ui/main_for_ui.py

# coding: utf-8
import argparse
import subprocess
import sys
import signal
import time
from appium.webdriver.common.touch_action import TouchAction
from appium.webdriver.common.multi_action import MultiAction
# from appium.webdriver.common.mobileby import MobileBy
from selenium.webdriver.common.by import By
from appium.webdriver.common.mobileby import MobileBy
from appium import webdriver
from tqdm import tqdm
from agent_for_api.API_list import usr_api_list
from agent_for_api.agent_api_prompt import select_api_prompt, select_api_example
from agent_for_api.main_for_api import get_api_list
from agent_html_prompt import *
from selenium.common.exceptions import WebDriverException, InvalidElementStateException, NoSuchElementException, \
    InvalidArgumentException, StaleElementReferenceException
import json
from xml_to_html import any_tree_to_html
from chatgpt import *
import re
from app_list_MIUI import app_list
from selenium.webdriver.support import expected_conditions as EC
from selenium.webdriver.support.ui import WebDriverWait
from selenium.common.exceptions import TimeoutException
from PIL import Image
import numpy as np
from io import StringIO

max_attempts = 5  # Set the maximum number of retry attempts
sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '..')))
# currently tasks are all defined on single-app
'''
How does the entire demo work?
Use appium to obtain the xml information of the interface -> convert the local algorithm into html format ->
package and send the task (task description + env_html) -> agent (planning + action) ->
action is converted into appium's action and acts on the environment -> (task Description+env_html+action_history)->
The new action acts on the environment. (loop construction completed)
'''
# How to agent make decision?：
'''
planning action reward memory?
'''

import xml.etree.ElementTree as ET
from anytree import Node

def parse_xml_to_anytree(xml_code):
    root = ET.fromstring(xml_code)

    def build_anytree(node, element, child_index, seen_elements, counter):
        element_type = element.tag
        # print(element_type)
        # Generate a unique key for the element based on its attributes
        element_key = (
            element_type,
            element.get('resource-id', ''),
            #  content-desc， text兼容问题
            element.get('content-desc', ''),
            element.get('text', ''),
            element.get('clickable', ''),
            element.get('scrollable', ''),
            element.get('package', ''),  ##
            element.get('class', ''),
            element.get('displayed', ''),
            element.get('bounds', ''),
        )
        seen_elements.add(element_key)

        # 检查是否有儿子节点
        is_leaf = not bool(list(element))

        # 检查 text 和 content-desc 是否至少有一个为真
        has_text = bool(element.get('text'))
        has_content_desc = bool(element.get('content-desc'))

        visible = has_text or has_content_desc or 'button' in element_type.lower() or 'edittext' in element.tag.lower()

        leaf_id = counter[0]  # 使用计数器作为 leaf_id
        counter[0] += 1  # 递增计数器

        anytree_node = Node(element_type, parent=node, type=element_type, visible=visible, leaf_id=leaf_id,
                            resource_id=element.get('resource-id'), content_desc=element.get('content-desc'),
                            text=element.get('text'), clickable=element.get('clickable'), is_leaf=is_leaf,
                            scrollable=element.get('scrollable'), package=element.get('package'),
                            class_label=element.get('class'), displayed=element.get('displayed'),
                            bounds=element.get('bounds'))

        for idx, child in enumerate(element):
            # print(idx)
            build_anytree(anytree_node, child, idx, seen_elements, counter)

    is_root_leaf = not bool(list(root))

    anytree_root = Node(root.tag, type=root.tag, visible=True, leaf_id=0,  # 初始计数器为 0
                        resource_id=root.get('resource-id'), content_desc=root.get('content-desc'),
                        text=root.get('text'), clickable=root.get('clickable'),
                        is_leaf=is_root_leaf, scrollable=root.get('scrollable'), package=root.get('package'),
                        class_label=root.get('class'), displayed=root.get('displayed'), bounds=root.get('bounds'))

    seen_elements = set()
    counter = [1]  # 使用列表来存储计数器的值，以便在递归中共享

    for idx, child in enumerate(root):
        # print("out",idx)
        build_anytree(anytree_root, child, idx, seen_elements, counter)

    return anytree_root


def screen_swipe(driver, start_x, start_y, end_x, end_y, duration=1000):
    # use duration to control the speed of swipe
    success = False
    while not success:
        try:
            driver.swipe(start_x, start_y, end_x, end_y, duration)
            success = True  # If the page source is acquired, set success to True to exit the loop
        except WebDriverException as e:
            print(f"Encountered an error: {e}. Retrying...")
            time.sleep(5)  # Wait for 5 seconds before retrying


def get_memory(history_actions):
    memory_list = []
    # print(history_actions)
    for round_number, action_info in enumerate(history_actions, 1):
        key = None
        if 'action' in action_info:
            key = 'action'
            # round_number += 1  # 仅当键是 'action' 时增加 round_number
        elif 'thought' in action_info:
            key = 'thought'
        elif 'API call' in action_info:
            key = 'API call'
            # round_number += 1  # 仅当键是 'API call' 时增加 round_number
        else:
            key = 'unknown'
            # round_number += 1  # 对于其他未知类型也增加 round_number
        detail = action_info.get(key, 'No detail')
        # print(f"{key}: {detail}")
        memory_list.append(f"{action_info}")
        # memory_list.append(f"{key}: {detail}")

    if memory_list != []:
        # memory_list = memory_list[-10:]   # 记忆压缩。
        memory = "\n".join(memory_list)
    else:
        memory = "No action has been completed yet"
    return memory


from selenium.common.exceptions import WebDriverException
import re, time

def find_element1(element, driver):
    id_match = re.search(r'id="([^"]+)"', element)
    text_match = re.search(r'>\s*([^<>]+)\s*<', element)
    alt_match = re.search(r'description="([^"]+)"', element)
    class_match = re.search(r'class="([^"]+)"', element)
    if id_match:
        id_value = id_match.group(1).strip()
        # print("-----------------------------------------", id_value)
    if text_match:
        text_value = text_match.group(1).strip()
        # print(text_value)
        if text_value.isspace() or not text_value:
            text_match = False
            # print("-----------------------------------------", text_match)

    if alt_match:
        alt_value = alt_match.group(1).strip()
        # print("-----------------------------------------", alt_value)
    if class_match:
        class_value = class_match.group(1).strip()

    find = False
    if text_match and alt_match and id_match :
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().text("{text_value}").description("{alt_value}").resourceId("{id_value}")')
                success = True  # 如果页面源获取成功，设置success为True以退出循环
            except WebDriverException as e:
                attempt_count += 1
                print(f"遇到错误: {e}. 重试中...")
                time.sleep(5)  # 重试前等待5秒
        if not success:
            print("服务器端错误")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print(r"警告: 存在多个具有相同text_value\description\id的元素，这可能导致错误！")
        if find:
            return list

    if text_match and alt_match :
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().text("{text_value}").description("{alt_value}")')
                success = True  # 如果页面源获取成功，设置success为True以退出循环
            except WebDriverException as e:
                attempt_count += 1
                print(f"遇到错误: {e}. 重试中...")
                time.sleep(5)  # 重试前等待5秒
        if not success:
            print("服务器端错误")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print(r"警告: 存在多个具有相同text_value\description的元素，这可能导致错误！")
        if find:
            return list

    if id_match and text_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR, f'new UiSelector().resourceId("{id_value}").text("{text_value}")')
                # print("------------------------",list)
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        # list = driver.find_elements(By.ID, id_value)
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print(r"警告: 存在多个具有相同text_value\id的元素，这可能导致错误！")
        if find:
            return list

    if id_match and alt_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR, f'new UiSelector().resourceId("{id_value}").description("{alt_value}")')
                # print("------------------------",list)
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        # list = driver.find_elements(By.ID, id_value)
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print(r"警告: 存在多个具有相同description\id的元素，这可能导致错误！")
        if find:
            return list

    if text_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().text("{text_value}")')
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print("警告: 存在多个具有相同text的元素，这可能导致错误！")
        if find:
            return list

    if alt_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().description("{alt_value}")')
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print("警告: 存在多个具有相同description的元素，这可能导致错误！")
        if find:
            return list

    if class_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().className("{class_value}")')
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        # list = driver.find_elements(By.ID, id_value)
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print("警告: 存在多个具有相同class的元素，这可能导致错误！")
        if find:
            return list

    if id_match:
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                list = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR,
                                            f'new UiSelector().resourceId("{id_value}")')
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        if success == False:
            print("serve side error")
            return None
        if len(list) > 0:
            find = True
        if len(list) > 1:
            print("警告: 存在多个具有相同id的元素，这可能导致错误！")
        if find:
            return list



    print("没有定位到对应的元素")
    return None


def find_elements_by_criteria(driver, max_attempts=3, **criteria):
    selectors = []
    if 'id' in criteria:
        selectors.append(f'resourceId("{criteria["id"]}")')
    if 'text' in criteria:
        selectors.append(f'text("{criteria["text"]}")')
    if 'alt' in criteria:
        selectors.append(f'description("{criteria["alt"]}")')
    if 'class' in criteria:
        selectors.append(f'className("{criteria["class"]}")')

    if not selectors:
        print("没有定位到对应的元素")
        return None

    ui_selector = f'new UiSelector().' + '.'.join(selectors)
    attempt_count = 0
    while attempt_count < max_attempts:
        try:
            elements = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR, ui_selector)
            if len(elements) > 0:
                if len(elements) > 1:
                    print(f"警告: 存在多个具有相同属性的元素，这可能导致错误！")
                return elements
            attempt_count += 1
        except WebDriverException as e:
            print(f"遇到错误: {e}. 重试中...")
            time.sleep(5)
            attempt_count += 1

    print("服务器端错误或超过最大尝试次数")
    return None


def find_element(element, driver, max_attempts=3):
    id_match = re.search(r'id="([^"]+)"', element)
    text_match = re.search(r'>\s*([^<>]+)\s*<', element)
    alt_match = re.search(r'description="([^"]+)"', element)
    class_match = re.search(r'class="([^"]+)"', element)

    criteria = {}
    if id_match:
        criteria['id'] = id_match.group(1).strip()
    if text_match and not text_match.group(1).isspace():
        criteria['text'] = text_match.group(1).strip()
    if alt_match:
        criteria['alt'] = alt_match.group(1).strip()
    if class_match:
        criteria['class'] = class_match.group(1).strip()

    return find_elements_by_criteria(driver, max_attempts, **criteria)


def actions(res, history_actions, driver):
    if 'click(' in res:
        first_angle_bracket = res.find('<')
        first_reangle_bracket = res.find('>')
        second_angle_bracket = res.find('>', first_reangle_bracket + 1)
        # Extract the element from between these positions
        text = res[first_angle_bracket:second_angle_bracket + 1]
        list = find_element(text, driver)
        if list == None:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element click({text})"})
        elif len(list) == 0:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element click({text})"})
        else:
            try:
                list[0].click()
                history_actions.append({"Action": f"click({text})"})
            except WebDriverException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append({"Action": f"[Fail]: Unsuccessful click click({text})"})

    elif 'press(' in res:
        action = TouchAction(driver)
        first_angle_bracket = res.find('<')
        first_reangle_bracket = res.find('>')
        second_angle_bracket = res.find('>', first_reangle_bracket + 1)
        # Extract the element from between these positions
        text = res[first_angle_bracket:second_angle_bracket + 1]
        list = find_element(text, driver)
        if list == None:
            print("Warning: Invalid element")
        elif len(list) == 0:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element press({text})"})
        else:
            try:
                action.press(list[0]).wait(1000).release().perform()
                history_actions.append({"Action": f"press({text})"})
            except WebDriverException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append({"Action": f"[Fail]: Unsuccessful press({text})"})

    elif 'zoom(' in res:
        action1 = TouchAction(driver)
        action2 = TouchAction(driver)
        zoom_action = MultiAction(driver)
        first_angle_bracket = res.find('<')
        first_reangle_bracket = res.find('>')
        second_angle_bracket = res.find('>', first_reangle_bracket + 1)
        # Extract the element from between these positions
        text = res[first_angle_bracket:second_angle_bracket + 1]
        list = find_element(text, driver)
        if list == None:
            print("Warning: Invalid element")
        elif len(list) == 0:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element Zoom({text})"})
        else:
            try:
                action1.press(list[0]).move_to(x=0, y=-100)  # 向上移动
                action2.press(list[0]).move_to(x=0, y=100)  # 向下移动
                zoom_action.add(action1, action2)
                zoom_action.perform()
                history_actions.append({"Action": f"Zoom({text})"})
            except WebDriverException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append({"Action": f"[Fail]: Unsuccessful zoom({text})"})

    elif 'pinch(' in res:
        action1 = TouchAction(driver)
        action2 = TouchAction(driver)

        first_angle_bracket = res.find('<')
        first_reangle_bracket = res.find('>')
        second_angle_bracket = res.find('>', first_reangle_bracket + 1)
        # Extract the element from between these positions
        text = res[first_angle_bracket:second_angle_bracket + 1]
        list = find_element(text, driver)
        if list == None:
            print("Warning: Invalid element")
        elif len(list) == 0:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element pinch({text})"})
        else:
            try:
                action1.press(x=list[0].location['x'], y=list[0].location['y'] - 100).move_to(list[0])
                action2.press(x=list[0].location['x'], y=list[0].location['y'] + 100).move_to(list[0])

                pinch_action = MultiAction(driver)
                pinch_action.add(action1, action2)
                pinch_action.perform()
                history_actions.append({"Action": f"pinch({text})"})
            except WebDriverException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append({"Action": f"[Fail]: Unsuccessful pinch({text})"})

    elif 'input(' in res:
        first_angle_bracket = res.find('<')
        first_reangle_bracket = res.find('>')
        second_angle_bracket = res.find('>', first_reangle_bracket + 1)
        # Extract the element from between these positions
        element = res[first_angle_bracket:second_angle_bracket + 1]
        input_context = res[second_angle_bracket + 2:-1].strip()
        input_context = input_context.strip('\'\"')
        # print(element)
        # print(input_context)
        list = find_element(element, driver)
        if list == None:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element. input({element}, {input_context})"})
        elif len(list) == 0:
            print("Warning: Invalid element")
            history_actions.append({"Action": f"[Fail]: Invalid element. input({element}, {input_context})"})
        else:
            try:
                # 点击元素
                list[0].click()
                history_actions.append({"Action": f"click({element})"})
                try:
                    WebDriverWait(driver, 1).until(
                        EC.staleness_of(list[0])
                    )
                    # 等待刷新

                except TimeoutException:
                    # 如果元素不存在或不可见，不执行input操作
                    list[0].send_keys(input_context)
                    history_actions.append({"Action": f"input({element}, {input_context})"})

            except InvalidElementStateException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append(
                    {"Action": f"[Fail]: InvalidElementStateException input({element}, {input_context})"})
            except NoSuchElementException as e:
                print(f"Encountered an error: {e}. Retrying...")
                history_actions.append({"Action": f"[Fail]: NoSuchElementException input({element}, {input_context})"})
            except InvalidArgumentException as e:
                print(f"Encountered an error: {e}. Input value might be invalid for the element.")
                history_actions.append(
                    {"Action": f"[Fail]: InvalidArgumentException input({element}, {input_context})"})
            except StaleElementReferenceException as e:
                print(f"Encountered an error: {e}. The element might have been detached from the DOM.")
                history_actions.append(
                    {"Action": f"[Fail]: StaleElementReferenceException input({element}, {input_context})"})

    elif 'scroll(' in res or 'swipe(' in res:
        action = TouchAction(driver)

        numbers = re.findall(r'\d+', res)
        # 将找到的数字转换成整数并分配给相应的变量
        x1, y1, x2, y2 = map(int, numbers[:4])
        max_value = max(x1, y1, x2, y2)
        # 对滑动操作的参数进行调整，以免超出边界。
        if x1 == max_value:
            x1 -= 50
        if y1 == max_value:
            y1 -= 50
        if x2 == max_value:
            x2 -= 50
        if y2 == max_value:
            y2 -= 50

        # 如果某个数等于0，则加50
        if x1 == 0:
            x1 += 50
        if y1 == 0:
            y1 += 50
        if x2 == 0:
            x2 += 50
        if y2 == 0:
            y2 += 50
        success = False
        attempt_count = 0
        while not success and attempt_count < max_attempts:
            try:
                action.press(x=x1, y=y1).wait(ms=1000).move_to(x=x2, y=y2).release().perform()
                # driver.swipe(x1, y1, x2, y2, duration=1000) # swipe的效果不够好。
                success = True  # If the page source is acquired, set success to True to exit the loop
            except WebDriverException as e:
                attempt_count += 1
                print(f"Encountered an error: {e}. Retrying...")
                time.sleep(5)  # Wait for 5 seconds before retrying
        if success:
            history_actions.append({"Action": f"scroll([{x1},{y1}][{x2},{y2}])"})
        else:
            print("[Fail]: unsucess scroll.")
            history_actions.append({"Action": f"[Fail]: unsuccessful scroll scroll([{x1},{y1}][{x2},{y2}])"})


def get_page_source(driver):
    attempt_count = 0
    success = False
    xml_source = None
    while not success and attempt_count < max_attempts:
        try:
            xml_source = driver.page_source
            success = True  # If the page source is acquired, set success to True to exit the loop
        except WebDriverException as e:
            attempt_count += 1
            print(f"Encountered an error: {e}. Retrying...")
            time.sleep(5)  # Wait for 5 seconds before retrying
            # driver.quit()
            # driver = open_driver()
    return xml_source, driver


def run_command(command):
    result = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True)
    if result.returncode == 0:
        return "API execution successful"
    else:
        return f"API execution failed with error: {result.stderr}"


def api(res, history_actions):
    matches = re.findall(r'\[(.*)\]', res)
    success = False
    for match in matches:
        adb_command = match
        print("[API CALL]: ", adb_command)
        result = run_command(adb_command)
        print("[APi Function Call Result]: \033[34m" + result + "\033[0m")
        if 'success' in result:
            success = True
        # 有待商榷，执行失败的信息是否应该放在记录里，这样可以避免重复生成错误的API
        if "successful" in result:
            history_actions.append({f"API call": f"{adb_command}. [Call result]:{result}"})
        # history_actions.append({f"[API call]": f"{adb_command}. [Call result]:{result}"})
    return success


def get_success_memory(history_actions):
    memory_list = []
    counter = 0  # Initialize a counter
    for action_info in history_actions:
        key = None
        # 检查动作类型
        if 'action' in action_info or 'thought' in action_info:
            if 'action' in action_info:
                key = 'action'
            elif 'thought' in action_info:
                key = 'thought'

            # 当遇到 'action' 或 'thought' 时，每两次迭代增加一次计数
            if counter % 2 == 0:
                round_number = counter // 2 + 1
            counter += 1

        elif 'API call' in action_info:
            key = 'API call'
            round_number = counter // 2 + 1  # 保持当前的 round_number

        elif 'App Select and Plan' in action_info:
            key = 'App Select and Plan'
            round_number = counter // 2 + 1  # 保持当前的 round_number

        else:
            key = 'unknown'
            round_number = counter // 2 + 1  # 保持当前的 round_number

        detail = action_info.get(key, 'No detail')
        memory_list.append(f"Step {round_number}: {key}: {detail}")

    memory = "\n".join(memory_list)
    return memory


def read_json_file(file_path):
    with open(file_path, 'r', encoding='utf-8') as file:
        data = json.load(file)

    # Extracting only id, app, packagename, query, and check_point information
    extracted_data = []
    for item in data:
        id = item.get('id')
        app = item.get('app')
        package_name = item['check_point'].get('package', [])
        query = item.get('query')
        check_point = item.get('check_point')
        extracted_data.append({
            'id': id,
            'app': app,
            'packagename': package_name,
            'query': query,
            'check_point': check_point
        })

    return extracted_data


def calculate_package_coverage(data_item, action_history):
    # 初始化覆盖数量
    coverage_count = 0
    if 'check_point' in data_item and 'package' in data_item['check_point']:
        package_names = data_item['check_point']['package']
        # 遍历 package_names 中的每个元素
        for package_name in package_names:
            # 检查元素是否出现在 action_history 的任何动作中
            if any(package_name in action for action in action_history):
                coverage_count += 1

        return coverage_count / len(package_names)
    else:
        return 0


def check_point_passed(check_point_value, action_history):
    if '|' in check_point_value:
        # 如果列表中有 '|', 那么任何一个 action_history 中的动作包含至少一个元素即通过
        return any(cp_elem in action for cp_elem in check_point_value if cp_elem != '|' for action in action_history), 1
    elif '&' in check_point_value:
        # 如果列表中有 '&', 那么 action_history 中的动作需要包含所有元素
        return all(cp_elem in action for cp_elem in check_point_value if cp_elem != '&' for action in action_history), 1
    else:
        if isinstance(check_point_value, list):
            total_elems = len(check_point_value)
            passed_elems = sum(any(cp_elem in action for action in action_history) for cp_elem in check_point_value)
            return passed_elems, total_elems
        else:
            return any(check_point_value in action for action in action_history), 1


# check point scores
def check_points(data_item, action_history):
    checkpoints = ['activity', 'resource-id', 'text', 'package', 'api']
    total_checkpoints = 0
    passed_checkpoints = 0

    for cp in checkpoints:
        if cp in data_item['check_point'] and data_item['check_point'][cp]:  # check existence
            check_point_value = data_item['check_point'][cp]
            if isinstance(check_point_value, list):
                passed, total = check_point_passed(check_point_value, action_history)
                passed_checkpoints += passed
                total_checkpoints += total
            else:
                # 直接比较
                total_checkpoints += 1
                if any(check_point_value in action for action in action_history):
                    passed_checkpoints += 1

    return passed_checkpoints / total_checkpoints if total_checkpoints > 0 else 0


def format_api_info_as_text(text, data):
    """
    Format the API information as text in the specified format if the name_ch or name_en of an app is found in the text.
    :param text: The string in which to search for app names.
    :param data: The JSON data containing app information.
    :return: A string formatted as a dictionary with app names as keys and their API information as values.
    """
    formatted_info = {}
    general_keys_api = [
        {
            "ADB Command": "adb shell input keyevent KEYCODE_BACK",
            "Function Description": "Return to previous page",
            "Parameter Information": "No additional parameters required."
        },
        {
            "ADB Command": "adb shell input keyevent KEYCODE_HOME",
            "Function Description": "go to home page, which is equal to click the home button",
            "Parameter Information": "No additional parameters required."
        },
        {
            "ADB Command": "adb shell input keyevent KEYCODE_SLEEP",
            "Function Description": "Set the device to sleep",
            "Parameter Information": "No additional parameters required."
        },
        {
            "ADB Command": "adb shell screencap -p /sdcard/screenshot.png",
            "Function Description": "Takes a screenshot and saves it.",
            "Parameter Information": "No additional parameters required."
        },
        {
            "ADB Command": "adb shell input keyevent KEYCODE_WAKEUP",
            "Function Description": "Wake up the device",
            "Parameter Information": "No additional parameters required."
        }
    ]
    formatted_info["通用按键"] = general_keys_api
    # 如果text是中文，则应该直接匹配, \b带有词边界。
    # if app['name_ch'] in text or app['name_en'] in text
    for app in data:
        # if re.search(r'\b' + re.escape(app['name_ch']) + r'\b', text) or re.search(
        #         r'\b' + re.escape(app['name_en']) + r'\b', text):
        if app['name_ch'] in text or app['name_en'] in text:
            api_info = app['api']
            if api_info:
                formatted_info[app['name_ch']] = api_info

    # Convert the dictionary to a string formatted as a dictionary
    formatted_text = json.dumps(formatted_info, indent=2, ensure_ascii=False)
    return formatted_text


def map_and_reverse_complete_interactive_elements(html_content):  # 建立元素和数值的映射关系；
    lines = html_content.split('\n')
    interactive_elements = {}
    counter = 1  # Start numbering from 1

    for line in lines:
        # Check if the line contains a clickable, scrollable or input element
        if 'clickable="true"' in line or 'scrollable="true"' in line or 'input' in line:
            # Map the entire line (HTML tag) to the number
            interactive_elements[counter] = line.strip()
            counter += 1  # Increment the counter for the next interactive element

    return interactive_elements


def calculate_scroll_parameters(window_size, html, direction, scroll_type='short'):
    width = window_size['width']
    height = window_size['height']
    safe_margin = 10   # 安全边界距离
    match = re.search(r'bounds="\[([0-9]+,[0-9]+)\]\[([0-9]+,[0-9]+)\]"', html)
    bounds = [match.group(1), match.group(2)]
    # 解析bounds字符串"[x1,y1][x2,y2]"
    x1, y1 = map(int, bounds[0].split(','))
    x2, y2 = map(int, bounds[1].split(','))

    # 计算中点坐标
    mid_x = (x1 + x2) // 2
    mid_y = (y1 + y2) // 2

    if scroll_type == 'short':
        # 短距离滚动
        offset_x = (x2 - x1) // 4
        offset_y = (y2 - y1) // 4
        scroll_coordinates = {
            'up': ([mid_x, mid_y + offset_y], [mid_x, mid_y - offset_y]),
            'down': ([mid_x, mid_y - offset_y], [mid_x, mid_y + offset_y]),
            'left': ([mid_x + offset_x, mid_y], [mid_x - offset_x, mid_y]),
            'right': ([mid_x - offset_x, mid_y], [mid_x + offset_x, mid_y])
        }
    elif scroll_type == 'long':
        # 长距离滚动
        if direction == 'up':
            start_x = end_x = mid_x
            start_y = y2 - safe_margin
            end_y = safe_margin
        elif direction == 'down':
            start_x = end_x = mid_x
            start_y = y1 + safe_margin
            end_y = height - safe_margin
        elif direction == 'left':
            start_y = end_y = mid_y
            start_x = x2 - safe_margin
            end_x = safe_margin
        elif direction == 'right':
            start_y = end_y = mid_y
            start_x = x1 + safe_margin
            end_x = width - safe_margin
        else:
            return None  # 无效方向
        scroll_coordinates = {
            direction: ([start_x, start_y], [end_x, end_y])
        }
    else:
        return None  # 无效的滚动类型

    return scroll_coordinates[direction]

    # # 定义滚动偏移量
    # offset_x = (x2 - x1) // 4
    # offset_y = (y2 - y1) // 4
    #
    # # 根据方向计算滚动起始和结束坐标
    # scroll_directions = {
    #     'up': ([mid_x, mid_y + offset_y], [mid_x, mid_y - offset_y]),
    #     'down': ([mid_x, mid_y - offset_y], [mid_x, mid_y + offset_y]),
    #     'left': ([mid_x + offset_x, mid_y], [mid_x - offset_x, mid_y]),
    #     'right': ([mid_x - offset_x, mid_y], [mid_x + offset_x, mid_y])
    # }

    # return scroll_directions[direction]


def process_user_input(window_size, user_input, elements_map):  # 将用户的输入转化为实际的执行指令
    # Splitting the input for action and parameters
    parts = user_input.split('(', 1)
    action = parts[0].strip().lower()  # Action: click, scroll, input
    params = parts[1].rstrip(')').split(',') if len(parts) > 1 else []  # Parameters in the parentheses

    # Defining the action command and parameters
    action_command = ''
    params_command = ''

    # Determine the action and construct corresponding command
    if action == 'click':
        action_command = 'click'
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            params_command = elements_map[int(params[0])]
    elif action == 'press':
        action_command = 'press'
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            params_command = elements_map[int(params[0])]
    elif action == 'zoom':
        action_command = 'zoom'
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            params_command = elements_map[int(params[0])]
    elif action == 'pinch':
        action_command = 'pinch'
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            params_command = elements_map[int(params[0])]
    elif action == 'scroll':
        action_command = 'scroll'
        # Defining scroll directions as start and end coordinates
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            html_element = elements_map[int(params[0])]
            direction = str(params[1]).strip()
            if len(params) > 2:
                scroll_type = 'long'
            else:
                scroll_type = 'short'
            params_command = calculate_scroll_parameters(window_size, html_element, direction, scroll_type)
    elif action == 'input':
        action_command = 'input'
        if params and params[0].isdigit() and int(params[0]) in elements_map:
            params_command = elements_map[int(params[0])]
            if len(params) > 1:
                params_command += f", '{params[1]}'"

    # Construct the final command
    final_command = f"{action_command}({params_command})"

    return final_command


# def display_html_and_mapping(html_content, elements_map):
#     # Outputting the entire HTML content
#     print("[HTML Content]:")
#     print(html_content)
#     print("[Interactive Elements Mapping]:")
#     # Iterating through the elements map and printing the index and description
#     # Initialize categories
#     clickables = {}
#     scrollables = {}
#     inputs = {}  # Assuming we could identify input elements somehow
#
#     # Iterating through the elements map to categorize
#     for index, html in elements_map.items():
#         if 'input' in html:
#             inputs[index] = html
#         elif 'scrollable="true"' in html:
#             scrollables[index] = html
#         elif 'clickable="true"' in html:
#             clickables[index] = html
#
#
#     # Outputting categorized elements
#     categories = [("Clickables", clickables), ("Scrollables", scrollables), ("Inputs", inputs)]
#     for category_name, category_map in categories:
#         if category_map:  # Only print if category has items
#             print(f"[{category_name}]:")
#             max_index_length = len(str(max(category_map.keys()))) if category_map else 0
#             for index, html in category_map.items():
#                 # Attempting to extract a brief description
#                 if 'description="' in html:
#                     description = html.split('description="')[1].split('"')[0]
#                 else:
#                     text_content = html.split('>')[1].split('<')[0] if '>' in html and '<' in html else ""
#                     description = text_content.strip()
#                     # Adding bounds if the element is scrollable
#                 if 'scrollable="true"' in html and 'bounds="' in html:
#                     bounds = html.split('bounds="')[1].split('"')[0]
#                     description += f" ({bounds})" if bounds else ""
#                 if description:  # Only print if there's a description or text content
#                     print(f"{index:{max_index_length}}: {description}")

def display_html_and_mapping(html_content, elements_map):
    from io import StringIO

    # Initialize categories
    clickables = {}
    scrollables = {}
    inputs = {}  # Assuming we could identify input elements somehow

    # Iterating through the elements map to categorize
    for index, html in elements_map.items():
        if 'input' in html:
            inputs[index] = html
        elif 'EditText' in html:
            inputs[index] = html
        elif 'scrollable="true"' in html:
            scrollables[index] = html
        elif 'clickable="true"' in html:
            clickables[index] = html

    # Using StringIO to capture output
    output = StringIO()

    # Outputting categorized elements
    categories = [("Clickables", clickables), ("Scrollables", scrollables), ("Inputs", inputs)]
    for category_name, category_map in categories:
        if category_map:  # Only print if category has items
            output.write(f"[{category_name}]:\n")
            max_index_length = len(str(max(category_map.keys()))) if category_map else 0
            for index, html in category_map.items():
                description = ""
                # Extracting a brief description
                if 'description="' in html:
                    description = html.split('description="')[1].split('"')[0]
                elif 'class="' in html:
                    class_name = html.split('class="')[1].split('"')[0]
                    # Check if there is visible text inside the element
                    inner_text = html.split('>')[1].split('<')[0] if '>' in html and '<' in html else ""
                    if not inner_text.strip():
                        description = f"Empty {class_name}"
                    else:
                        description = inner_text.strip()

                # Adding bounds if the element is scrollable
                if 'scrollable="true"' in html and 'bounds="' in html:
                    bounds = html.split('bounds="')[1].split('"')[0]
                    description += f" ({bounds})" if bounds else ""

                if description:  # Only print if there's a description or text content
                    output.write(f"{index:{max_index_length}}: {description}\n")

    # Return the output as a string
    return output.getvalue()
def display_html_and_mapping_1(html_content, elements_map):
    # Outputting the entire HTML content
    # Initialize categories
    clickables = {}
    scrollables = {}
    inputs = {}  # Assuming we could identify input elements somehow

    # Iterating through the elements map to categorize
    for index, html in elements_map.items():
        if 'input' in html:
            inputs[index] = html
        elif 'EditText' in html:
            inputs[index] = html
        elif 'scrollable="true"' in html:
            scrollables[index] = html
        elif 'clickable="true"' in html:
            clickables[index] = html

    # Outputting categorized elements
    categories = [("Clickables", clickables), ("Scrollables", scrollables), ("Inputs", inputs)]
    for category_name, category_map in categories:
        if category_map:  # Only print if category has items
            print(f"[{category_name}]:")
            max_index_length = len(str(max(category_map.keys()))) if category_map else 0
            for index, html in category_map.items():
                description = ""
                # Extracting a brief description
                if 'description="' in html:
                    description = html.split('description="')[1].split('"')[0]
                elif 'class="' in html:
                    class_name = html.split('class="')[1].split('"')[0]
                    # Check if there is visible text inside the element
                    inner_text = html.split('>')[1].split('<')[0] if '>' in html and '<' in html else ""
                    if not inner_text.strip():
                        description = f"Empty {class_name}"
                    else:
                        description = inner_text.strip()

                # Adding bounds if the element is scrollable
                if 'scrollable="true"' in html and 'bounds="' in html:
                    bounds = html.split('bounds="')[1].split('"')[0]
                    description += f" ({bounds})" if bounds else ""

                if description:  # Only print if there's a description or text content
                    print(f"{index:{max_index_length}}: {description}")

def click_cancel(driver):
    # cancel_button = driver.find_element_by_id("com.miui.systemAdSolution:id/cancel_dialog")
    # if cancel_button:
    #     cancel_button.click()
    cancel_button = driver.find_elements(MobileBy.ANDROID_UIAUTOMATOR, f'new UiSelector().text("取消")')
    if cancel_button:
        cancel_button[0].click()


def open_driver(command_executor, desired_caps):
    success = False
    attempt_count = 0
    while not success and attempt_count < max_attempts:
        try:
            driver = webdriver.Remote(command_executor, desired_caps)
            success = True
        except WebDriverException as e:
            attempt_count += 1
            print(f"Encountered an error: {e}. Retrying...")
            time.sleep(5)  # Wait for 5 seconds before retrying
    if not success:
        print(f"Failed to connect after {max_attempts} attempts. Exiting program.")
        driver.quit()
        sys.exit()  # Exit the program if connection is not successful
    else:
        print("[Device connected successfully!]")
        return driver


def compare_images(img_path1, img_path2, threshold):
    """
    Compare two images and determine if they are the same based on pixel values.

    :param img_path1: Path to the first image.
    :param img_path2: Path to the second image.
    :param threshold: The threshold for considering the images as the same.
                      This is the percentage of pixels that must be the same.
    :return: True if the images are the same based on the given threshold, False otherwise.
    """
    # Open the images
    try:
        img1 = Image.open(img_path1)
        img2 = Image.open(img_path2)
    except IOError:
        print("Error in opening one of the images.")
        return False

    # Convert images to numpy arrays
    img1_array = np.array(img1)
    img2_array = np.array(img2)

    # Check if dimensions are the same
    if img1_array.shape != img2_array.shape:
        print("Images have different dimensions.")
        return False

    # Calculate the number of equal pixels
    equal_pixels = np.sum(img1_array == img2_array)

    # Total number of pixels
    total_pixels = img1_array.size

    # Calculate the ratio of equal pixels
    similarity_ratio = equal_pixels / total_pixels
    dif_ratio = 1 - similarity_ratio


    return dif_ratio > threshold


def get_parser():
    parser = argparse.ArgumentParser(description="Agent for mobile phone")
    parser.add_argument('--temperature', type=float, default=0.3, help='temperature')
    parser.add_argument('--model', type=str, default='gpt-4-turbo-2024-04-09', help='model to use')
    parser.add_argument('--user_name', type=str, default='xuweikai', help='user name')
    parser.add_argument('--dataset', type=str, default='s_app_s_step.json', help='dataset to use')
    parser.add_argument('--max_steps', type=int, choices=range(0, 50), default=10, help='numbers of steps')
    parser.add_argument('--start_index', type=int, default=4, help='start_index')
    parser.add_argument('--device_name', type=str, default='YD7HAEKB49Q4PZOJ', help='device to use')
    parser.add_argument('--systemPort', type=int, default=8201, help='appium client port')
    parser.add_argument('--command_executor', type=str, default='http://127.0.0.1:4723/wd/hub', help='appium server port')
    parser.add_argument('--appPackage', type=str, default='ctrip.android.view',
                        help='which app to randomly walk')
    return parser


parser = get_parser()
args = parser.parse_args()
should_continue = True
# STOP_SIGNAL_FILE = "../html/stop_signal.txt"


def main():
    global should_continue
    t = time.localtime()
    model_name = args.model.replace('/', '-')
    logfilename = '../result/results-' + model_name + '--t' + str(
        args.temperature) + '--' + time.strftime("%Y-%m-%d-%H-%M-%S", t) + '.jsonl'
    # with open(logfilename, 'w', encoding='utf-8') as f:
    #     f.write(time.strftime("%Y-%m-%d %H:%M:%S", t) + '\n')  # write each result as a new line
    #     f.write('model: ' + str(args.model) + '\n')
    #     f.write('max_steps: ' + str(args.max_steps) + '\n')
    #     f.write("--------------------------------\n")

    # read data
    # data = read_json_file(args.dataset)
    data = [
        {"ori": {"名称": "椰香可芮朵", "杯型": "小杯", "浓缩咖啡": "金烘浓缩（浅烘）", "星巴克门店": "星巴克松江文汇路店"}, "query": "请在星巴克松江文汇路店为我点一杯小杯椰香可芮朵，使用金烘浓缩（浅烘）咖啡，浓缩份数为1份。"},
        {"ori": {"名称": "浓缩康保蓝", "杯型": "双份", "浓缩咖啡": "经典浓缩（深烘）", "温度": "热", "浓缩份数": "浓缩份数", "星巴克门店": "星巴克Z18广场店"}, "query": "请在星巴克Z18广场店为我点一杯热的浓缩康保蓝，使用经典浓缩（深烘）咖啡，浓缩份数为2份。"},
        {"ori": {"名称": "馥芮白", "饮品主体": "稀奶油", "温度": "微热", "浓缩份数": "浓缩份数", "添加或更换风味糖浆": "大溪地香草风味糖浆", "添加更换牛奶": "燕麦奶", "浓缩咖啡": "经典浓缩（深烘）", "星巴克门店": "星巴克常州万都广场店"}, "query": "请在星巴克常州万都广场店为我点一杯馥芮白，使用经典浓缩（深烘）咖啡，浓缩份数为标准量。饮品中添加大溪地香草风味糖浆，使用燕麦奶替代标准牛奶，顶部覆盖微热的稀奶油。"}, 
        {"ori": {"名称": "芒果西番莲果茶星冰乐", "杯型": "中杯", "添加或更换风味糖浆": "原味糖浆", "饮品主体": "椰浆", "星巴克门店": "星巴克虹梅路店"}, "query": "请在星巴克虹梅路店为我点一杯中杯芒果西番莲果茶星冰乐，使用椰浆作为饮品主体，并添加原味糖浆。"}
    ]
    # read APP list
    with open('app_list_MIUI.json', 'r', encoding='utf-8') as file:
        all_app_list = json.load(file)

    print("***[TEST BEGIN]***")

    cnt = 0
    total_steps = 0
    pass_cnt = 0
    check_result_1 = 0
    check_result_2 = 0
    app_Packagename = "com.starbucks.cn"
    device_name = args.device_name
    systemPort = args.systemPort
    command_executor = args.command_executor
    desired_caps = {
        "platformName": "Android",
        "deviceName": device_name,
        "udid": device_name,
        "platformVersion": "13.0",
        'automationName': 'uiautomator2',
        'noReset': True,
        'newCommandTimeout': 6000,
        'uiautomator2ServerLaunchTimeout': 60000,
        'systemPort': systemPort
    }
    print(desired_caps)
    print("[start connected]")
    # driver to connect to the emulator
    global driver
    driver = open_driver(command_executor, desired_caps)

    start_index = args.start_index  # Change this to the index you want to start testing from
    # screenshot_path = f"C:/Users/mi/PycharmProjects/Agent_base_appium/result/screenshot/screenshot_{systemPort}_0.png"
    # adb_command = f"adb exec-out screencap -p > {screenshot_path}"
    # result = subprocess.run(adb_command, shell=True)
    # result 用于对ADB的指令测试。
    # for data_item in tqdm(data[start_index:], desc="Automatic Testing"):
    for data_item in tqdm(data, desc="Automatic Testing"):
        # for data_item in tqdm(data, desc="Automatic Testing"):
        driver.close_app()
        # 清理正在前台的app
        history_actions = []
        cnt += 1
        task = ''.join(data_item['query'])
        print(task)
        stop_command = ["adb", "-s", device_name, "shell", "am", "force-stop", app_Packagename]
        subprocess.run(stop_command)
        # if cnt == 1:
        #     adb_command = 
        stop_command = ["adb", "-s", device_name, "shell", "am", "force-stop", app_Packagename]
        subprocess.run(stop_command)
        # click_cancel(driver)
        #

        # 这个方式会导致 socket hang up 目前尚未解决。
        # open switch app
        # switch_command = f"adb shell input keyevent KEYCODE_APP_SWITCH"
        # subprocess.run(switch_command)
        # time.sleep(3)
        # # 清理所有正在后台运行的程序
        # id_value = "com.miui.home:id/clearAnimView"
        # try:
        #     x = driver.find_element(MobileBy.ANDROID_UIAUTOMATOR, f'new UiSelector().resourceId("{id_value}")')
        #     x.click()
        #     print("[All apps delete.]")
        # except NoSuchElementException:
        #     print(f"[No app is running.]")
        # 保证在主界面
        # reboot_command = f"adb shell input keyevent KEYCODE_HOME"
        # # 执行命令
        # subprocess.run(reboot_command)
        # print("\n[Go back to Home page]")

        # start_command = f"./emulator -avd miui_emulator_phone_34 -snapshot reset-env-3 -sysdir ~/.miui/system-images/android-34/miui_emulator_phone_34/xiaomi/x86_64"
        # # start device and load the snapshot.
        # avd_name = "emulator-5554"
        # snapshot_name = "reset-env-3"
        # emulator_path = r"emulator"
        #
        # print("[ReSet The Environment]: ", start_command)
        # try:
        #     # 执行命令
        #     subprocess.run(start_command, shell=True, check=True)
        #
        # except subprocess.CalledProcessError as e:
        #     print(f"命令执行失败: {e}")
        # except FileNotFoundError:
        #     print("找不到'emulator'命令，请确保已将其添加到您的 PATH 环境变量中。")
        # except Exception as e:
        #     print(f"发生了未知错误: {e}")

        # select the app
        xml_source, driver = get_page_source(driver)
        # print(xml_source)
        anytree_root = parse_xml_to_anytree(xml_source)
        # translate xml to html
        html_code = any_tree_to_html(anytree_root, 0, None)
        # folder_path = ''
        # print("[HTML UI]：", html_code)
        print(time.strftime("%Y-%m-%d-%H-%M-%S", t))
        prompt = app_selection_prompt.format(app_selection_example=app_selection_example,
                                             task_description=task, apps_information=app_list)
        # res = get_model_response(args, prompt)
        res = ('This is a overall plan. ')
        print("[Task]: ", task)
        print("[App Select and Plan]: \033[34m" + res + "\033[0m")
        plan = res
        api_list = format_api_info_as_text(plan, all_app_list)

        # # agent with environment
        round_number = 0
        task_continue = True
        thought = "I have just specified the plan. Now I should execute it according to the plan and take the first step of the plan."
        # 每一轮决策中，api和ui只能调用一个。
        # screenshot_path = f"C:/Users/mi/PycharmProjects/Agent_base_appium/result/screenshot_{device_name}/screenshot{device_name}_0.png"
        # adb_command = f"adb exec-out screencap -p > {screenshot_path}"
        # subprocess.run(adb_command, shell=True)

        while round_number < args.max_steps:
            print(r"------------Round {round}------------".format(round=round_number))
            api_use = False
            round_number += 1

            xml_source, driver = get_page_source(driver)
            if xml_source == None:
                print("error")
                sys.exit()
            anytree_root = parse_xml_to_anytree(xml_source)
            # translate xml to html
            html_code = any_tree_to_html(anytree_root, 0, None)
            print("[thought]: \033[34m" + thought + "\033[0m")
            # is there api could use??  # 先检查api的调用，再做ui操作。
            # api_prompt = select_api_prompt.format(select_api_example=select_api_example, api_list=api_list, task=task,
            #                                       memory=get_memory(history_actions),
            #                                       planning=plan, thought=thought, ui_information=html_code)
            # api_res = get_model_response(args, api_prompt)
            # print("[API]: \033[34m" + api_res + "\033[0m")
            # if 'ERROR' in api_res:
            #     time.sleep(8)
            #     api_use = False
            #     continue
            # elif 'sorry' not in api_res.lower():
            #     if re.search(r'\[(.*)\]', api_res):
            #         result = api(api_res, history_actions)
            #         if result:
            #             api_use = True
            #         else:
            #             api_use = False
            #     else:
            #         print("[Wrong API command format]")
            #         api_use = False
            # else:
            #     print("[No API Use]")
            #     api_use = False
            # multi action making to finish a task.
            # if not api_use:
            # print("[HTML UI]：", html_code)
            # previous_history_actions = history_actions
            # # gpt4/3.5 API call
            # actions_prompt = actions_making_prompt.format(actions_making_example=actions_making_example,
            #                                               task_description=task,
            #                                               ui_information=html_code,
            #                                               memory=get_memory(history_actions),
            #                                               planning=plan, thought=thought)
            # print("[Prompt]: ", prompt)
            # action_res = chatgpt(actions_prompt)[0]
            # 保存动作前的页面信息

            # finish\adb\ui actions decision making
            type_prompt = action_type_prompt.format(action_type_example=action_type_example, task_description=task,
                                                           adb_api=api_list, action_history=get_memory(history_actions),
                                                           thought=thought, planning=plan)
            # action_type = get_model_response(args, type_prompt)
            # action_type = input("[Has the task been completed? If it is not completed, what type of action do we need to do?]: ")
            action_type = 'ui action'
            print("[Action Type]: \033[34m" + action_type + "\033[0m")
            action_res = None
            if "task is finished" in action_type.lower():
                task_continue = False
                break
            elif "adb" in action_type.lower() and "not finished" in action_type.lower():
                api_prompt = select_api_prompt.format(select_api_example=select_api_example, api_list=api_list, task=task,
                                                      memory=get_memory(history_actions),
                                                      planning=plan, thought=thought, ui_information=html_code)
                action_res = get_model_response(args, api_prompt)
                print("[API Action]: \033[34m" + action_res + "\033[0m")
                # print("[API List]: ", api_list)
                # action_res = input("[Which ADB command do we need?]: ")
                result = api(action_res, history_actions)
                if result:
                    api_use = True
                else:
                    api_use = False
            elif "ui action" in action_type.lower():
                mapping = map_and_reverse_complete_interactive_elements(html_code)
                print(mapping)
                action_space = display_html_and_mapping(html_code, mapping)
                # actions_prompt = actions_making_prompt.format(actions_making_example=actions_making_example,
                #                                               task_description=task,
                #                                               action=action_space,
                #                                               memory=get_memory(history_actions),
                #                                               planning=plan, thought=thought)
                # action_res = get_model_response(args, actions_prompt)
                # print("[UI Action]: \033[34m" + action_res + "\033[0m")
                # USER input
                action_res = input("[Which UI action do we need to do? click/scroll/input]: ")
                window_size = driver.get_window_size()
                action_res = process_user_input(window_size, action_res, mapping)
                print("[Actual Action]: \033[34m" + action_res + "\033[0m")
                actions(action_res, history_actions, driver)
            else:
                print("[no usful action in this round!]")
                continue
            # if the request reach the limit;
            time.sleep(1)

            xml_source, driver = get_page_source(driver)
            anytree_root = parse_xml_to_anytree(xml_source)
            # translate xml to html
            new_html_code = any_tree_to_html(anytree_root, 0, None)
            print("New HTML code:", new_html_code)
            # planning 放在最后面的原因是我们希望thought代表的是对当前动作的反思和对未来动作的思考。
            print("[Action History]: ", get_memory(history_actions))
            thought_prompt = Thought_prompt.format(thought_example=Thought_example, task_description=task,
                                                    planning=plan, action=action_res,
                                                    ui_information=html_code,
                                                    action_history=get_memory(history_actions),
                                                    now_ui_information=new_html_code,
                                                    api_list=usr_api_list)

            round_result = {
                "round_number": round_number,
                "old_html": html_code,
                "new_html": new_html_code,
                "action": action_res
            }
            # with open(logfilename, 'a', encoding='utf-8') as f:
            #     # Use json.dump() with indent=4 to write with indentation
            #     json.dump(round_result, f, indent=4)
            #     f.write('\n')  # Add a newline to separate each result
            # # save the screenshot
             # 在设备上保存截图
            remote_path = f"/sdcard/screenshot_{systemPort}_{round_number}-screen.png"
            screencap_command = f"adb shell screencap -p {remote_path}"
            subprocess.run(screencap_command, shell=True)
            local_path = f"C:/Users/mi/PycharmProjects/Agent_base_appium/result/screenshot/{systemPort}_{round_number}-screen.png"
            xml_path = f"C:/Users/mi/PycharmProjects/Agent_base_appium/result/screenshot/{systemPort}_{round_number}-xml.txt"
            html_path = f"C:/Users/mi/PycharmProjects/Agent_base_appium/result/screenshot/{systemPort}_{round_number}-html.txt"
            
            with open(xml_path, 'w', encoding='utf-8') as f:
                f.write(xml_source)
                f.write('\n')
                f.close()
            with open(html_path, 'w', encoding='utf-8') as f:
                f.write(new_html_code)
                f.write('\n')
                f.close()
            # 将截图文件拉取到本地
            # local_path = os.path.join(data_output_path, temp_save_path, f"{filename}-screen.png")
            pull_command = f"adb pull {remote_path} {local_path}"
            subprocess.run(pull_command, shell=True)
            # 删除设备上的截图文件（可选）
            delete_command = f"adb -s {device_name} shell rm {remote_path}"
            subprocess.run(delete_command, shell=True)
            
            # adb_command = f"adb exec-out screencap -p > {screenshot_path}"
            # result = subprocess.run(adb_command, shell=True)
            # if result.returncode == 0:
            #     print("截图成功！")
            # else:
            #     print("截图失败。")
            #     print("错误信息:", result.stderr)
            # thought_res = get_model_response(args, thought_prompt)
            # thought_res = input("what is your thought?")
            thought_res = "This is a test."
            # print("Thought Prompt:", thought_prompt)
            print("[thought]: \033[34m" + thought_res + "\033[0m")
            thought = thought_res  # 更新对下一步动作的思考。
            # history_actions.append({"thought": f"{res}"})



        # Task_description_example
        total_steps += round_number
        if task_continue:
            result = "Task failed"
        else:
            result = "Task finished successfully"
            pass_cnt += 1
        successful_actions_action = [action['Action'] for action in history_actions if
                                     action.get('Action', '') and 'Fail' not in action['Action']]
        successful_actions_api_call = [action['API call'] for action in history_actions if
                                       action.get('API call', '') and 'failed' not in action['API call']]
        successful_actions = successful_actions_action + successful_actions_api_call

        # check point
        check_result_1 += calculate_package_coverage(data_item, successful_actions)
        check_result_2 += check_points(data_item, successful_actions)

        result = {
            "id": data_item["id"],
            "app": data_item["app"],
            'query': data_item["query"],
            'action history': ' '.join(successful_actions),
            'check_point': data_item["check_point"],
            "result": result,
            "passrate": pass_cnt / cnt,
            "steps": round_number,
            "average steps": total_steps / cnt,
            "level1_check_result": check_result_1 / cnt,
            "level2_check_result": check_result_2 / cnt,
        }
        print("[passrate]: ", pass_cnt / cnt)
        print("[level1_check_result]: ", check_result_1 / cnt)
        print("[level2_check_result]: ", check_result_2 / cnt)

        # with open(logfilename, 'a', encoding='utf-8') as f:
        #     # Use json.dump() with indent=4 to write with indentation
        #     json.dump(result, f, indent=4)
        #     f.write('\n')  # Add a newline to separate each result

    # task finished
    driver.quit()


def signal_handler(sig, frame):
    driver.quit()
    print("driver cleaned")
    sys.exit(0)


signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)

if __name__ == '__main__':
    main()