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1aab2d2453d461890b2d8dd4c99cebdfd7a456e4
pqAutomationApp/pqAutomationApp.py
xinzhu.yin 1aab2d2453 修复本地文件冲突
2026-04-20 16:57:30 +08:00

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import ttkbootstrap as ttk
import tkinter as tk
from tkinter import messagebox, filedialog
import sys
import threading
import time
import os
import datetime
import colour
import json
import traceback
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.image as mpimg
import algorithm.pq_algorithm as pq_algorithm
from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg
from app_version import APP_NAME, APP_VERSION, get_app_title
from drivers.caSerail import CASerail
from drivers.tvSerail import tvSerial
from drivers.UCD323_Function import UCDController
from drivers.UCD323_Enum import UCDEnum
from app.pq.pq_config import PQConfig
from app.pq.pq_result import PQResult
from app.data_range_converter import convert_pattern_params
from PIL import Image, ImageTk
from app.views.collapsing_frame import CollapsingFrame
from app.views.pq_log_gui import PQLogGUI
from colormath.color_objects import xyYColor, LabColor
from colormath.color_conversions import convert_color
from colormath.color_diff import delta_e_cie2000
from app.views.pq_debug_panel import PQDebugPanel
# Step 0/1 重构:资源工具和纯算法已迁移到 app/ 包,这里重新导入以保持
# 对原函数名/方法名的向后兼容(老代码内部仍用 self.calculate_* 调用)。
from app.resources import (
backgroud_style_set,
get_resource_path,
load_icon,
)
from app.tests.color_accuracy import (
calculate_color_accuracy as _calc_color_accuracy,
calculate_delta_e_2000 as _calc_delta_e_2000,
get_accuracy_color_standards as _get_accuracy_color_standards,
)
from app.tests.eotf import calculate_pq_curve as _calc_pq_curve
from app.tests.gamma import calculate_gamma as _calc_gamma
from app.tests.gamut import calculate_gamut_coverage as _calc_gamut_coverage
from app.plots.plot_accuracy import plot_accuracy as _plot_accuracy
from app.plots.plot_cct import plot_cct as _plot_cct
from app.plots.plot_contrast import plot_contrast as _plot_contrast
from app.plots.plot_eotf import plot_eotf as _plot_eotf
from app.plots.plot_gamma import plot_gamma as _plot_gamma
from app.plots.plot_gamut import plot_gamut as _plot_gamut
from app.views.chart_frame import (
clear_chart as _cf_clear_chart,
create_result_chart_frame as _cf_create_result_chart_frame,
init_accuracy_chart as _cf_init_accuracy_chart,
init_cct_chart as _cf_init_cct_chart,
init_contrast_chart as _cf_init_contrast_chart,
init_eotf_chart as _cf_init_eotf_chart,
init_gamma_chart as _cf_init_gamma_chart,
init_gamut_chart as _cf_init_gamut_chart,
on_chart_tab_changed as _cf_on_chart_tab_changed,
update_chart_tabs_state as _cf_update_chart_tabs_state,
)
from app.config_io import (
clear_config_file as _cfg_clear_config_file,
get_config_path as _cfg_get_config_path,
load_pq_config as _cfg_load_pq_config,
save_pq_config as _cfg_save_pq_config,
)
from app.tests.local_dimming import (
clear_ld_records as _ld_clear_ld_records,
measure_ld_luminance as _ld_measure_ld_luminance,
save_local_dimming_results as _ld_save_local_dimming_results,
send_ld_window as _ld_send_ld_window,
start_local_dimming_test as _ld_start_local_dimming_test,
stop_local_dimming_test as _ld_stop_local_dimming_test,
update_ld_results as _ld_update_ld_results,
)
from app.device.connection import (
check_com_connections as _dev_check_com_connections,
check_port_connection as _dev_check_port_connection,
disconnect_com_connections as _dev_disconnect_com_connections,
enable_com_widgets as _dev_enable_com_widgets,
get_available_com_ports as _dev_get_available_com_ports,
get_available_ucd_ports as _dev_get_available_ucd_ports,
refresh_com_ports as _dev_refresh_com_ports,
update_connection_indicator as _dev_update_connection_indicator,
)
from app.runner.test_runner import (
get_current_test_result as _run_get_current_test_result,
new_pq_results as _run_new_pq_results,
on_custom_template_test_completed as _run_on_custom_template_test_completed,
on_test_completed as _run_on_test_completed,
on_test_error as _run_on_test_error,
run_custom_sdr_test as _run_run_custom_sdr_test,
run_hdr_movie_test as _run_run_hdr_movie_test,
run_screen_module_test as _run_run_screen_module_test,
run_sdr_movie_test as _run_run_sdr_movie_test,
run_test as _run_run_test,
send_fix_pattern as _run_send_fix_pattern,
test_cct as _run_test_cct,
test_color_accuracy as _run_test_color_accuracy,
test_contrast as _run_test_contrast,
test_custom_sdr as _run_test_custom_sdr,
test_eotf as _run_test_eotf,
test_gamma as _run_test_gamma,
test_gamut as _run_test_gamut,
)
plt.rcParams["font.family"] = ["sans-serif"]
plt.rcParams["font.sans-serif"] = ["Microsoft YaHei"]
class PQAutomationApp:
def __init__(self, root):
self.root = root
self.root.title(get_app_title())
self.root.geometry("900x650")
self.root.minsize(900, 650)
self.root.protocol("WM_DELETE_WINDOW", self.on_closing)
self.app_name = APP_NAME
self.app_version = APP_VERSION
self.config_cleared = False
# 初始化设备连接状态
self.ca = None # CA410色度计
self.ucd = UCDController() # 信号发生器
# 初始化测试状态
self.testing = False
self.test_thread = None
# 采集节奏参数:默认在稳定性与速度之间取平衡,可按现场情况再微调。
self.pattern_settle_time = 0.4
self.pattern_progress_log_step = 5
# 创建主框架
self.main_frame = ttk.Frame(root)
self.main_frame.pack(fill=tk.BOTH, expand=True, padx=10, pady=10)
backgroud_style_set()
# 创建配置对象
self.config = PQConfig()
self.results = None
# 加载上次保存的设置
self.config_file = self.get_config_path()
self.load_pq_config()
# 如果加载的配置不是屏模组,强制切换为屏模组
if self.config.current_test_type != "screen_module":
self.config.set_current_test_type("screen_module")
# 初始化侧边栏功能显示状态 - 使用统一的页面管理
self.current_panel = None # 当前显示的面板名称
self.panels = {} # 存储所有面板的信息
self.log_visible = False
# 创建左侧面板
self.left_frame = ttk.Frame(self.main_frame, width=180)
self.left_frame.pack(side=tk.LEFT, fill=tk.Y, padx=0, pady=5)
self.left_frame.pack_propagate(False)
# 创建左侧导航栏
self.sidebar_frame = ttk.Frame(self.left_frame, bootstyle="primary")
self.sidebar_frame.pack(fill=tk.BOTH, expand=True, padx=0, pady=5)
# self.sidebar_frame.pack_propagate(False)
# 创建右侧内容区域
self.content_frame = ttk.Frame(self.main_frame)
self.content_frame.pack(
side=tk.RIGHT, fill=tk.BOTH, expand=True, padx=5, pady=5
)
# 创建右侧内容区域的上中下三个分区
self.control_frame_top = ttk.Frame(self.content_frame)
self.control_frame_top.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
self.control_frame_middle = ttk.Frame(self.content_frame)
self.control_frame_middle.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
self.control_frame_bottom = ttk.Frame(self.content_frame)
self.control_frame_bottom.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
# 创建右上角悬浮配置框
self.create_floating_config_panel()
# 创建右侧结果显示区域
self.result_frame = ttk.LabelFrame(self.control_frame_middle, text="测试结果")
self.result_frame.pack(
side=tk.BOTTOM, fill=tk.BOTH, expand=True, padx=0, pady=5
)
# 创建日志显示区域
self.create_log_panel()
# 创建 Local Dimming 面板
self.create_local_dimming_panel()
# 创建测试类型选择区域
self.create_test_type_frame()
# 创建操作按钮区域
self.create_operation_frame()
# 创建结果图表区域
self.create_result_chart_frame()
# 创建客户模板结果显示区域(黑底表格)
self.create_custom_template_result_panel()
# 在所有控件创建完成后,统一初始化测试类型
self.root.after(100, self.initialize_default_test_type)
# 状态栏
self.status_var = tk.StringVar(value="就绪")
self.status_bar = ttk.Label(
root, textvariable=self.status_var, relief=tk.SUNKEN, anchor=tk.W
)
self.status_bar.pack(side=tk.BOTTOM, fill=tk.X)
def _dispatch_ui(self, fn, *args, **kwargs):
"""把 ``fn(*args, **kwargs)`` 调度到 Tk 主线程执行。
统一替代散落各处的 ``self.root.after(0, lambda: ...)`` 写法:
- 自动捕获异常并记录日志,避免工作线程静默丢失 UI 更新失败;
- 参数用位置/关键字传入,绕开 ``lambda`` 闭包捕获变量的常见坑;
- 允许在 UI 销毁(如关闭窗口)后安全失败。
"""
def _runner():
try:
fn(*args, **kwargs)
except Exception as exc:
log = getattr(self, "log_gui", None)
if log is not None:
try:
log.log(f"UI 调度异常: {exc}")
except Exception:
pass
try:
self.root.after(0, _runner)
except Exception:
pass
get_config_path = _cfg_get_config_path
def initialize_default_test_type(self):
"""初始化默认测试类型(在所有控件创建完成后调用)"""
try:
# 强制切换到屏模组
self.change_test_type("screen_module")
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 默认测试类型已设置为屏模组")
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"初始化默认测试类型失败: {str(e)}")
init_gamut_chart = _cf_init_gamut_chart
init_gamma_chart = _cf_init_gamma_chart
init_eotf_chart = _cf_init_eotf_chart
init_cct_chart = _cf_init_cct_chart
init_contrast_chart = _cf_init_contrast_chart
init_accuracy_chart = _cf_init_accuracy_chart
clear_chart = _cf_clear_chart
def create_floating_config_panel(self):
"""创建右上角悬浮配置框"""
cf = CollapsingFrame(self.control_frame_top)
cf.pack(fill="both")
# 创建悬浮框主容器
self.config_panel_frame = ttk.Frame(cf)
cf.add(self.config_panel_frame, title="配置项")
# 创建一个统一的frame来替代选项卡控件
self.config_content_frame = ttk.Frame(self.config_panel_frame)
self.config_content_frame.pack(fill=tk.BOTH, expand=True, padx=5, pady=5)
# 创建一个横向排列的Frame
config_row_frame = ttk.Frame(self.config_content_frame)
config_row_frame.pack(fill=tk.X, expand=False, padx=5, pady=5)
# 创建连接内容区域
self.connection_frame = ttk.LabelFrame(config_row_frame, text="设备连接")
self.connection_frame.pack(
side=tk.LEFT, fill=tk.BOTH, expand=True, padx=5, pady=5
)
# 创建测试项目区域
self.test_items_frame = ttk.LabelFrame(config_row_frame, text="测试项目")
self.test_items_frame.pack(
side=tk.LEFT, fill=tk.BOTH, expand=True, padx=5, pady=5
)
# 创建信号格式区域
self.signal_format_frame = ttk.LabelFrame(config_row_frame, text="信号格式")
self.signal_format_frame.pack(
side=tk.LEFT, fill=tk.BOTH, expand=True, padx=5, pady=5
)
# 创建连接内容
self.create_connection_content()
# 创建测试项目内容
self.create_test_items_content()
# 创建信号格式内容
self.create_signal_format_content()
self.config_panel_frame.grid_remove()
self.config_panel_frame.btn.configure(image="closed")
def create_test_items_content(self):
"""创建测试项目选项卡内容"""
# 创建测试项目字典,用于管理不同测试类型的选项
self.test_items = {
"screen_module": {
"frame": ttk.Frame(self.test_items_frame),
"items": [
("色域", "gamut"),
("Gamma", "gamma"),
("色度", "cct"),
("对比度", "contrast"),
],
},
"sdr_movie": {
"frame": ttk.Frame(self.test_items_frame),
"items": [
("色域", "gamut"),
("Gamma", "gamma"),
("色度", "cct"),
("对比度", "contrast"),
("色准", "accuracy"),
],
},
"hdr_movie": {
"frame": ttk.Frame(self.test_items_frame),
"items": [
("色域", "gamut"),
("EOTF", "eotf"),
("色度", "cct"),
("对比度", "contrast"),
("色准", "accuracy"),
],
},
}
# 根据当前测试类型创建复选框
self.test_vars = {}
self.update_test_items()
# 创建色度参数设置框架
self.create_cct_params_frame()
def create_cct_params_frame(self):
"""创建色度参数设置区域 - 屏模组、SDR、HDR 独立(✅ 增加色域参考标准选择 + 单步调试按钮)"""
# ==================== 屏模组色度参数 Frame ====================
self.cct_params_frame = ttk.LabelFrame(
self.test_items_frame, text="色度参数设置(屏模组)"
)
# 默认值
screen_default_cct_params = self.config.get_default_cct_params("screen_module")
# 从配置读取屏模组参数
saved_params = self.config.current_test_types.get("screen_module", {}).get(
"cct_params", screen_default_cct_params.copy()
)
# 色域参考标准
saved_gamut_ref = self.config.current_test_types.get("screen_module", {}).get(
"gamut_reference", self.config.get_default_gamut_reference("screen_module")
)
# 创建屏模组变量
self.cct_x_ideal_var = tk.StringVar(
value=str(saved_params.get("x_ideal", 0.3127))
)
self.cct_x_tolerance_var = tk.StringVar(
value=str(saved_params.get("x_tolerance", 0.003))
)
self.cct_y_ideal_var = tk.StringVar(
value=str(saved_params.get("y_ideal", 0.3290))
)
self.cct_y_tolerance_var = tk.StringVar(
value=str(saved_params.get("y_tolerance", 0.003))
)
self.screen_gamut_ref_var = tk.StringVar(value=saved_gamut_ref)
# 创建屏模组输入框(左侧:色度参数)
params = [
("x-ideal:", self.cct_x_ideal_var, "x_ideal"),
("x-tolerance:", self.cct_x_tolerance_var, "x_tolerance"),
("y-ideal:", self.cct_y_ideal_var, "y_ideal"),
("y-tolerance:", self.cct_y_tolerance_var, "y_tolerance"),
]
for i, (label_text, var, key) in enumerate(params):
ttk.Label(self.cct_params_frame, text=label_text).grid(
row=i, column=0, sticky=tk.W, padx=5, pady=3
)
entry = ttk.Entry(self.cct_params_frame, textvariable=var, width=15)
entry.grid(row=i, column=1, sticky=tk.W, padx=5, pady=3)
# 绑定失去焦点事件
default_val = screen_default_cct_params[key]
entry.bind(
"<FocusOut>",
lambda e, v=var, d=default_val: self.on_cct_param_focus_out(v, d),
)
# 色域参考标准选择(右侧第一行)
ttk.Label(self.cct_params_frame, text="色域参考标准:").grid(
row=0, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
screen_gamut_combo = ttk.Combobox(
self.cct_params_frame,
textvariable=self.screen_gamut_ref_var,
values=["BT.2020", "BT.709", "DCI-P3"],
state="disabled",
width=12,
)
screen_gamut_combo.grid(row=0, column=3, sticky=tk.W, padx=5, pady=3)
screen_gamut_combo.bind(
"<<ComboboxSelected>>", self.on_screen_gamut_ref_changed
)
self.screen_gamut_combo = screen_gamut_combo
# ==================== ✅ 单步调试按钮(右侧第二行)====================
ttk.Label(self.cct_params_frame, text="单步调试:").grid(
row=1, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
self.screen_debug_btn = ttk.Button(
self.cct_params_frame,
text="打开调试面板",
command=self.toggle_screen_debug_panel,
bootstyle="info-outline",
state=tk.DISABLED, # 初始禁用
width=15,
)
self.screen_debug_btn.grid(row=1, column=3, sticky=tk.W, padx=5, pady=3)
# 重新计算按钮(屏模组)
self.recalc_cct_btn = ttk.Button(
self.cct_params_frame,
text="应用新参数并重绘",
command=self.recalculate_cct,
bootstyle="success",
)
self.recalc_cct_btn.grid(
row=4, column=0, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.recalc_cct_btn.grid_remove()
# 色域重新计算按钮
self.recalc_gamut_btn = ttk.Button(
self.cct_params_frame,
text="应用色域参考并重绘",
command=self.recalculate_gamut,
bootstyle="warning",
)
self.recalc_gamut_btn.grid(
row=4, column=2, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.recalc_gamut_btn.grid_remove()
# 提示文字
ttk.Label(
self.cct_params_frame,
text="提示: 清空输入框将恢复默认值",
font=("SimHei", 8),
foreground="gray",
).grid(row=5, column=0, columnspan=4, sticky=tk.W, padx=5, pady=5)
# ==================== SDR 色度参数 Frame ====================
self.sdr_cct_params_frame = ttk.LabelFrame(
self.test_items_frame, text="色度参数设置SDR"
)
# SDR 默认值
sdr_default_cct_params = self.config.get_default_cct_params("sdr_movie")
# 从配置读取 SDR 参数
sdr_saved_params = self.config.current_test_types.get("sdr_movie", {}).get(
"cct_params", sdr_default_cct_params.copy()
)
# 色域参考标准
sdr_saved_gamut_ref = self.config.current_test_types.get("sdr_movie", {}).get(
"gamut_reference", self.config.get_default_gamut_reference("sdr_movie")
)
# 创建 SDR 变量
self.sdr_cct_x_ideal_var = tk.StringVar(
value=str(sdr_saved_params.get("x_ideal", 0.3127))
)
self.sdr_cct_x_tolerance_var = tk.StringVar(
value=str(sdr_saved_params.get("x_tolerance", 0.003))
)
self.sdr_cct_y_ideal_var = tk.StringVar(
value=str(sdr_saved_params.get("y_ideal", 0.3290))
)
self.sdr_cct_y_tolerance_var = tk.StringVar(
value=str(sdr_saved_params.get("y_tolerance", 0.003))
)
self.sdr_gamut_ref_var = tk.StringVar(value=sdr_saved_gamut_ref)
# 创建 SDR 输入框
sdr_params = [
("x-ideal:", self.sdr_cct_x_ideal_var, "x_ideal"),
("x-tolerance:", self.sdr_cct_x_tolerance_var, "x_tolerance"),
("y-ideal:", self.sdr_cct_y_ideal_var, "y_ideal"),
("y-tolerance:", self.sdr_cct_y_tolerance_var, "y_tolerance"),
]
for i, (label_text, var, key) in enumerate(sdr_params):
ttk.Label(self.sdr_cct_params_frame, text=label_text).grid(
row=i, column=0, sticky=tk.W, padx=5, pady=3
)
entry = ttk.Entry(self.sdr_cct_params_frame, textvariable=var, width=15)
entry.grid(row=i, column=1, sticky=tk.W, padx=5, pady=3)
# 绑定失去焦点事件
default_val = sdr_default_cct_params[key]
entry.bind(
"<FocusOut>",
lambda e, v=var, d=default_val: self.on_sdr_cct_param_focus_out(v, d),
)
# 色域参考标准选择(右侧第一行)
ttk.Label(self.sdr_cct_params_frame, text="色域参考标准:").grid(
row=0, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
sdr_gamut_combo = ttk.Combobox(
self.sdr_cct_params_frame,
textvariable=self.sdr_gamut_ref_var,
values=["BT.2020", "BT.709", "DCI-P3"],
state="disabled",
width=12,
)
sdr_gamut_combo.grid(row=0, column=3, sticky=tk.W, padx=5, pady=3)
sdr_gamut_combo.bind("<<ComboboxSelected>>", self.on_sdr_gamut_ref_changed)
self.sdr_gamut_combo = sdr_gamut_combo
# ==================== ✅ SDR 单步调试按钮(右侧第二行)====================
ttk.Label(self.sdr_cct_params_frame, text="单步调试:").grid(
row=1, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
self.sdr_debug_btn = ttk.Button(
self.sdr_cct_params_frame,
text="打开调试面板",
command=self.toggle_sdr_debug_panel,
bootstyle="info-outline",
state=tk.DISABLED, # 初始禁用
width=15,
)
self.sdr_debug_btn.grid(row=1, column=3, sticky=tk.W, padx=5, pady=3)
# 重新计算按钮SDR
self.sdr_recalc_cct_btn = ttk.Button(
self.sdr_cct_params_frame,
text="应用新参数并重绘",
command=self.recalculate_cct,
bootstyle="success",
)
self.sdr_recalc_cct_btn.grid(
row=4, column=0, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.sdr_recalc_cct_btn.grid_remove()
# 色域重新计算按钮SDR
self.sdr_recalc_gamut_btn = ttk.Button(
self.sdr_cct_params_frame,
text="应用色域参考并重绘",
command=self.recalculate_gamut,
bootstyle="warning",
)
self.sdr_recalc_gamut_btn.grid(
row=4, column=2, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.sdr_recalc_gamut_btn.grid_remove()
# 提示文字
ttk.Label(
self.sdr_cct_params_frame,
text="提示: 清空输入框将恢复默认值",
font=("SimHei", 8),
foreground="gray",
).grid(row=5, column=0, columnspan=4, sticky=tk.W, padx=5, pady=5)
# ==================== HDR 色度参数 Frame ====================
self.hdr_cct_params_frame = ttk.LabelFrame(
self.test_items_frame, text="色度参数设置HDR"
)
# HDR 默认值
hdr_default_cct_params = self.config.get_default_cct_params("hdr_movie")
# 从配置读取 HDR 参数
hdr_saved_params = self.config.current_test_types.get("hdr_movie", {}).get(
"cct_params", hdr_default_cct_params.copy()
)
# 色域参考标准
hdr_saved_gamut_ref = self.config.current_test_types.get("hdr_movie", {}).get(
"gamut_reference", self.config.get_default_gamut_reference("hdr_movie")
)
# 创建 HDR 变量
self.hdr_cct_x_ideal_var = tk.StringVar(
value=str(hdr_saved_params.get("x_ideal", 0.3127))
)
self.hdr_cct_x_tolerance_var = tk.StringVar(
value=str(hdr_saved_params.get("x_tolerance", 0.003))
)
self.hdr_cct_y_ideal_var = tk.StringVar(
value=str(hdr_saved_params.get("y_ideal", 0.3290))
)
self.hdr_cct_y_tolerance_var = tk.StringVar(
value=str(hdr_saved_params.get("y_tolerance", 0.003))
)
self.hdr_gamut_ref_var = tk.StringVar(value=hdr_saved_gamut_ref)
# 创建 HDR 输入框
hdr_params = [
("x-ideal:", self.hdr_cct_x_ideal_var, "x_ideal"),
("x-tolerance:", self.hdr_cct_x_tolerance_var, "x_tolerance"),
("y-ideal:", self.hdr_cct_y_ideal_var, "y_ideal"),
("y-tolerance:", self.hdr_cct_y_tolerance_var, "y_tolerance"),
]
for i, (label_text, var, key) in enumerate(hdr_params):
ttk.Label(self.hdr_cct_params_frame, text=label_text).grid(
row=i, column=0, sticky=tk.W, padx=5, pady=3
)
entry = ttk.Entry(self.hdr_cct_params_frame, textvariable=var, width=15)
entry.grid(row=i, column=1, sticky=tk.W, padx=5, pady=3)
# 绑定失去焦点事件
default_val = hdr_default_cct_params[key]
entry.bind(
"<FocusOut>",
lambda e, v=var, d=default_val: self.on_hdr_cct_param_focus_out(v, d),
)
# 色域参考标准选择(右侧第一行)
ttk.Label(self.hdr_cct_params_frame, text="色域参考标准:").grid(
row=0, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
hdr_gamut_combo = ttk.Combobox(
self.hdr_cct_params_frame,
textvariable=self.hdr_gamut_ref_var,
values=["BT.2020", "BT.709", "DCI-P3"],
state="disabled",
width=12,
)
hdr_gamut_combo.grid(row=0, column=3, sticky=tk.W, padx=5, pady=3)
hdr_gamut_combo.bind("<<ComboboxSelected>>", self.on_hdr_gamut_ref_changed)
self.hdr_gamut_combo = hdr_gamut_combo
# ==================== ✅ HDR 单步调试按钮(右侧第二行)====================
ttk.Label(self.hdr_cct_params_frame, text="单步调试:").grid(
row=1, column=2, sticky=tk.W, padx=(20, 5), pady=3
)
self.hdr_debug_btn = ttk.Button(
self.hdr_cct_params_frame,
text="打开调试面板",
command=self.toggle_hdr_debug_panel,
bootstyle="info-outline",
state=tk.DISABLED, # 初始禁用
width=15,
)
self.hdr_debug_btn.grid(row=1, column=3, sticky=tk.W, padx=5, pady=3)
# 重新计算按钮HDR
self.hdr_recalc_cct_btn = ttk.Button(
self.hdr_cct_params_frame,
text="应用新参数并重绘",
command=self.recalculate_cct,
bootstyle="success",
)
self.hdr_recalc_cct_btn.grid(
row=4, column=0, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.hdr_recalc_cct_btn.grid_remove()
# 色域重新计算按钮HDR
self.hdr_recalc_gamut_btn = ttk.Button(
self.hdr_cct_params_frame,
text="应用色域参考并重绘",
command=self.recalculate_gamut,
bootstyle="warning",
)
self.hdr_recalc_gamut_btn.grid(
row=4, column=2, columnspan=2, pady=10, padx=5, sticky="ew"
)
self.hdr_recalc_gamut_btn.grid_remove()
# 提示文字
ttk.Label(
self.hdr_cct_params_frame,
text="提示: 清空输入框将恢复默认值",
font=("SimHei", 8),
foreground="gray",
).grid(row=5, column=0, columnspan=4, sticky=tk.W, padx=5, pady=5)
def _get_cct_var_dict(self, test_type):
"""按测试类型返回 CCT 变量映射。"""
if test_type == "sdr_movie":
return {
"x_ideal": self.sdr_cct_x_ideal_var,
"x_tolerance": self.sdr_cct_x_tolerance_var,
"y_ideal": self.sdr_cct_y_ideal_var,
"y_tolerance": self.sdr_cct_y_tolerance_var,
}
if test_type == "hdr_movie":
return {
"x_ideal": self.hdr_cct_x_ideal_var,
"x_tolerance": self.hdr_cct_x_tolerance_var,
"y_ideal": self.hdr_cct_y_ideal_var,
"y_tolerance": self.hdr_cct_y_tolerance_var,
}
return {
"x_ideal": self.cct_x_ideal_var,
"x_tolerance": self.cct_x_tolerance_var,
"y_ideal": self.cct_y_ideal_var,
"y_tolerance": self.cct_y_tolerance_var,
}
def _parse_cct_float(self, var, default):
"""读取并解析 CCT 输入值,失败时回落默认值。"""
try:
value = var.get().strip()
if value == "":
return default
return float(value)
except Exception:
return default
def _save_cct_params_for(self, test_type):
"""保存指定测试类型的 CCT 参数。"""
try:
default_params = self.config.get_default_cct_params(test_type)
var_dict = self._get_cct_var_dict(test_type)
cct_params = {
key: self._parse_cct_float(var_dict[key], default_params[key])
for key in default_params
}
if test_type not in self.config.current_test_types:
self.config.current_test_types[test_type] = {}
self.config.current_test_types[test_type]["cct_params"] = cct_params
self.save_pq_config()
except Exception:
pass
def _handle_cct_focus_out(self, var, default_value, save_func, label):
"""统一处理 CCT 参数失焦校验并保存。"""
try:
value = var.get().strip()
if value == "":
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(f"{label} 参数为空,恢复默认值: {default_value}")
else:
try:
float_val = float(value)
if float_val < 0 or float_val > 1:
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(
f"⚠️ {label} 参数超出范围,恢复默认值: {default_value}"
)
except ValueError:
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(
f"⚠️ {label} 参数无效,恢复默认值: {default_value}"
)
save_func()
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"处理 {label} 参数失败: {str(e)}")
def on_sdr_cct_param_focus_out(self, var, default_value):
"""SDR 色度参数失去焦点时的处理。"""
self._handle_cct_focus_out(var, default_value, self.save_sdr_cct_params, "SDR")
def save_sdr_cct_params(self):
"""保存 SDR 色度参数。"""
self._save_cct_params_for("sdr_movie")
def on_hdr_cct_param_focus_out(self, var, default_value):
"""HDR 色度参数失去焦点时的处理。"""
self._handle_cct_focus_out(var, default_value, self.save_hdr_cct_params, "HDR")
def save_hdr_cct_params(self):
"""保存 HDR 色度参数。"""
self._save_cct_params_for("hdr_movie")
def recalculate_cct(self):
"""重新计算并绘制色度图"""
try:
# 1. 保存新参数
self.save_cct_params()
self.log_gui.log("✓ 色度参数已更新")
# 2. 收起配置项
if hasattr(self, "config_panel_frame"):
try:
if self.config_panel_frame.winfo_viewable():
self.config_panel_frame.btn.invoke()
self.root.update_idletasks()
time.sleep(0.1)
except:
pass
# 3. 跳转到色度图Tab
self.chart_notebook.select(self.cct_chart_frame)
self.root.update_idletasks()
# 4. 检查是否有数据
if not hasattr(self, "results") or not self.results:
self.log_gui.log("⚠️ 没有测试数据,无法重新绘制")
messagebox.showwarning("警告", "请先完成测试后再重新计算")
return
# 5. 获取保存的灰阶数据
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data("cct", "gray")
if not gray_data or len(gray_data) < 2:
self.log_gui.log("⚠️ 没有可用的灰阶数据")
messagebox.showwarning("警告", "没有找到色度测试数据")
return
# 6. 重新计算 CCT
self.log_gui.log("=" * 50)
self.log_gui.log("开始重新计算色度一致性...")
self.log_gui.log("=" * 50)
import algorithm.pq_algorithm as pq_algorithm
cct_values = pq_algorithm.calculate_cct_from_results(gray_data)
# 7. 更新结果
self.results.set_test_item_result("cct", {"cct_values": cct_values})
# 8. 重新绘制色度图
test_type = self.config.current_test_type
self.plot_cct(test_type)
self.log_gui.log("✓ 色度图已重新绘制")
self.log_gui.log("=" * 50)
messagebox.showinfo("成功", "色度图已根据新参数重新绘制!")
except Exception as e:
self.log_gui.log(f"❌ 重新计算失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
messagebox.showerror("错误", f"重新计算失败: {str(e)}")
def recalculate_gamut(self):
"""重新计算并绘制色域图(使用新的参考标准)"""
try:
# 1. 收起配置项
if hasattr(self, "config_panel_frame"):
try:
if self.config_panel_frame.winfo_viewable():
self.config_panel_frame.btn.invoke()
self.root.update_idletasks()
time.sleep(0.1)
except:
pass
# 2. 跳转到色域图Tab
self.chart_notebook.select(self.gamut_chart_frame)
self.root.update_idletasks()
# 3. 检查是否有数据
if not hasattr(self, "results") or not self.results:
self.log_gui.log("⚠️ 没有测试数据,无法重新绘制")
messagebox.showwarning("警告", "请先完成测试后再重新计算")
return
# 4. 获取保存的色域数据
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
if not rgb_data or len(rgb_data) < 3:
self.log_gui.log("⚠️ 没有可用的色域数据")
messagebox.showwarning("警告", "没有找到色域测试数据")
return
# 5. 获取当前测试类型
test_type = self.config.current_test_type
# 6. 获取用户选择的参考标准
if test_type == "screen_module":
reference_standard = self.screen_gamut_ref_var.get()
elif test_type == "sdr_movie":
reference_standard = self.sdr_gamut_ref_var.get()
elif test_type == "hdr_movie":
reference_standard = self.hdr_gamut_ref_var.get()
else:
reference_standard = "DCI-P3"
self.log_gui.log("=" * 50)
self.log_gui.log(f"开始重新计算色域(参考标准: {reference_standard}...")
self.log_gui.log("=" * 50)
# 7. 重新计算 XY 色域覆盖率
xy_points = [[result[0], result[1]] for result in rgb_data]
# 根据参考标准计算 XY 覆盖率
if reference_standard == "BT.2020":
area_xy, coverage_xy = pq_algorithm.calculate_gamut_coverage_BT2020(
xy_points
)
elif reference_standard == "BT.709":
area_xy, coverage_xy = pq_algorithm.calculate_gamut_coverage_BT709(
xy_points
)
elif reference_standard == "DCI-P3":
area_xy, coverage_xy = pq_algorithm.calculate_gamut_coverage_DCIP3(
xy_points
)
else:
area_xy, coverage_xy = pq_algorithm.calculate_gamut_coverage_DCIP3(
xy_points
)
reference_standard = "DCI-P3"
self.log_gui.log(f"✓ 参考标准: {reference_standard}")
self.log_gui.log(f"✓ XY 色域覆盖率: {coverage_xy:.1f}%")
# ========== ✅✅✅ 8. 重新计算 UV 色域覆盖率 ==========
# 将 XY 坐标转换为 UV 坐标
uv_points = []
for x, y in xy_points:
try:
# XY转UV公式
denom = -2 * x + 12 * y + 3
if abs(denom) < 1e-10:
u, v = 0, 0
else:
u = 4 * x / denom
v = 9 * y / denom
uv_points.append([u, v])
except ZeroDivisionError:
continue
self.log_gui.log(f"✓ 转换后的 UV 点数量: {len(uv_points)}")
# 根据参考标准计算 UV 覆盖率
if reference_standard == "BT.2020":
area_uv, coverage_uv = pq_algorithm.calculate_gamut_coverage_BT2020_uv(
uv_points
)
elif reference_standard == "BT.709":
area_uv, coverage_uv = pq_algorithm.calculate_gamut_coverage_BT709_uv(
uv_points
)
elif reference_standard == "DCI-P3":
area_uv, coverage_uv = pq_algorithm.calculate_gamut_coverage_DCIP3_uv(
uv_points
)
else:
area_uv, coverage_uv = pq_algorithm.calculate_gamut_coverage_DCIP3_uv(
uv_points
)
self.log_gui.log(f"✓ UV 色域覆盖率: {coverage_uv:.1f}%")
# ========================================================
# 9. ✅ 更新结果(同时保存 XY 和 UV 覆盖率)
self.results.set_test_item_result(
"gamut",
{
"area": area_xy, # ← 兼容旧字段
"coverage": coverage_xy, # ← 兼容旧字段
"area_xy": area_xy, # ← XY 面积
"coverage_xy": coverage_xy, # ← XY 覆盖率
"area_uv": area_uv, # ← UV 面积
"coverage_uv": coverage_uv, # ← UV 覆盖率
"uv_coverage": coverage_uv, # ← 兼容字段Excel 导出用)
"reference": reference_standard,
},
)
self.log_gui.log("✓ 测试结果已更新到 results 对象")
# 10. 重新绘制色域图
self.plot_gamut(rgb_data, coverage_xy, test_type)
self.log_gui.log("✓ 色域图已重新绘制")
self.log_gui.log("=" * 50)
messagebox.showinfo(
"成功",
f"色域图已根据新参考标准 {reference_standard} 重新绘制!\n\n"
f"XY 覆盖率: {coverage_xy:.1f}%\n"
f"UV 覆盖率: {coverage_uv:.1f}%",
)
except Exception as e:
self.log_gui.log(f"❌ 重新计算失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
messagebox.showerror("错误", f"重新计算失败: {str(e)}")
def on_cct_param_change(self, var, default_value):
"""色度参数改变时的处理 - 空值恢复默认"""
try:
value = var.get().strip()
if value == "":
# 空值:恢复默认值
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(f"输入框为空,恢复默认值: {default_value}")
else:
# 验证是否为有效数字
try:
float_val = float(value)
if float_val < 0 or float_val > 1:
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(
f"参数超出范围 [0, 1],恢复默认值: {default_value}"
)
except ValueError:
var.set(str(default_value))
if hasattr(self, "log_gui"):
self.log_gui.log(f"无效的参数值,恢复默认值: {default_value}")
# 保存配置
self.save_cct_params()
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"处理参数变化失败: {str(e)}")
def on_cct_param_focus_out(self, var, default_value):
"""色度参数失去焦点时的处理 - 空值恢复默认"""
self._handle_cct_focus_out(var, default_value, self.save_cct_params, "屏模组")
def save_cct_params(self):
"""保存色度参数 - 简化版"""
self._save_cct_params_for(self.config.current_test_type)
def reload_cct_params(self):
"""切换测试类型时重新加载色度参数"""
try:
current_type = self.config.current_test_type
saved_params = self.config.current_test_types.get(current_type, {}).get(
"cct_params", None
)
if saved_params is None:
saved_params = self.config.get_default_cct_params(current_type)
# 更新输入框的值
self.cct_x_ideal_var.set(str(saved_params["x_ideal"]))
self.cct_x_tolerance_var.set(str(saved_params["x_tolerance"]))
self.cct_y_ideal_var.set(str(saved_params["y_ideal"]))
self.cct_y_tolerance_var.set(str(saved_params["y_tolerance"]))
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"重新加载色度参数失败: {str(e)}")
def update_test_items(self):
"""根据当前测试类型更新测试项目复选框"""
# 先隐藏所有测试项目框架
for config in self.test_items.values():
config["frame"].pack_forget()
current_test_type = self.config.current_test_type
self.test_vars = {}
if current_test_type in self.test_items:
config = self.test_items[current_test_type]
frame = config["frame"]
frame.pack(fill=tk.X, padx=5, pady=5)
# 添加测试类型标签
type_label = ttk.Label(
frame,
text=self.get_test_type_display_name(current_test_type),
style="primary.TLabel",
)
type_label.grid(row=0, column=0, columnspan=2, sticky=tk.W, padx=5, pady=3)
# 从配置中读取保存的选择状态
saved_test_items = self.config.current_test_types[current_test_type].get(
"test_items", []
)
# 添加复选框
for i, (text, var_name) in enumerate(config["items"]):
# 修改:根据配置决定是否勾选
# 如果配置中有该测试项,则勾选;否则不勾选
is_checked = var_name in saved_test_items
var = tk.BooleanVar(value=is_checked)
self.test_vars[f"{current_test_type}_{var_name}"] = var
ttk.Checkbutton(
frame,
text=text,
variable=var,
bootstyle="round-toggle",
command=self.update_config_and_tabs,
).grid(row=i // 2 + 1, column=i % 2, sticky=tk.W, padx=10, pady=5)
# 只有在 chart_notebook 已创建后才更新状态
if hasattr(self, "chart_notebook"):
self.update_chart_tabs_state()
# 更新色度参数框的显示状态
if hasattr(self, "cct_params_frame"):
self.toggle_cct_params_frame()
# ========== 新增方法: 更新配置并同步Tab状态 ==========
def update_config_and_tabs(self):
"""更新配置并同步图表Tab状态"""
self.update_config()
self.update_chart_tabs_state()
update_chart_tabs_state = _cf_update_chart_tabs_state
def get_test_type_display_name(self, test_type):
"""获取测试类型的显示名称"""
display_names = {
"screen_module": "屏模组性能测试",
"sdr_movie": "SDR Movie测试",
"hdr_movie": "HDR Movie测试",
}
return display_names.get(test_type, test_type)
def create_signal_format_content(self):
"""创建信号格式选项卡内容"""
self.signal_tabs = ttk.Notebook(self.signal_format_frame)
self.signal_tabs.pack(fill=tk.BOTH, expand=True)
# ==================== 屏模组格式设置 ====================
self.screen_module_signal_frame = ttk.Frame(self.signal_tabs)
self.screen_module_signal_frame.grid_columnconfigure(0, weight=1)
self.signal_tabs.add(self.screen_module_signal_frame, text="屏模组测试")
self.screen_module_timing_var = tk.StringVar(
value=self.config.current_test_types[self.config.current_test_type][
"timing"
]
)
screen_module_timing_combo = ttk.Combobox(
self.screen_module_signal_frame,
textvariable=self.screen_module_timing_var,
values=UCDEnum.TimingInfo.get_formatted_resolution_list(),
state="readonly",
)
screen_module_timing_combo.bind(
"<<ComboboxSelected>>", self.on_screen_module_timing_changed
)
screen_module_timing_combo.grid(row=0, column=0, sticky="ew", padx=5, pady=5)
# ==================== SDR信号格式设置 ====================
self.sdr_signal_frame = ttk.Frame(self.signal_tabs)
# 配置列权重
self.sdr_signal_frame.grid_columnconfigure(0, weight=0)
self.sdr_signal_frame.grid_columnconfigure(1, weight=1)
self.signal_tabs.add(self.sdr_signal_frame, text="SDR测试")
# 色彩空间
ttk.Label(self.sdr_signal_frame, text="色彩空间:").grid(
row=0, column=0, sticky=tk.W, padx=5, pady=2
)
self.sdr_color_space_var = tk.StringVar(value="BT.709")
sdr_color_space_combo = ttk.Combobox(
self.sdr_signal_frame,
textvariable=self.sdr_color_space_var,
values=["BT.709", "BT.601", "BT.2020"],
width=10,
state="readonly",
)
sdr_color_space_combo.grid(row=0, column=1, sticky=tk.W, padx=5, pady=2)
# Gamma
ttk.Label(self.sdr_signal_frame, text="Gamma:").grid(
row=1, column=0, sticky=tk.W, padx=5, pady=2
)
self.sdr_gamma_type_var = tk.StringVar(value="2.2")
sdr_gamma_combo = ttk.Combobox(
self.sdr_signal_frame,
textvariable=self.sdr_gamma_type_var,
values=["2.2", "2.4", "2.6"],
width=10,
state="readonly",
)
sdr_gamma_combo.grid(row=1, column=1, sticky=tk.W, padx=5, pady=2)
# 数据范围
ttk.Label(self.sdr_signal_frame, text="数据范围:").grid(
row=2, column=0, sticky=tk.W, padx=5, pady=2
)
self.sdr_data_range_var = tk.StringVar(value="Full")
sdr_range_combo = ttk.Combobox(
self.sdr_signal_frame,
textvariable=self.sdr_data_range_var,
values=["Full", "Limited"],
width=10,
state="readonly",
)
sdr_range_combo.grid(row=2, column=1, sticky=tk.W, padx=5, pady=2)
# 编码位深
ttk.Label(self.sdr_signal_frame, text="编码位深:").grid(
row=3, column=0, sticky=tk.W, padx=5, pady=2
)
self.sdr_bit_depth_var = tk.StringVar(value="8bit")
sdr_bit_depth_combo = ttk.Combobox(
self.sdr_signal_frame,
textvariable=self.sdr_bit_depth_var,
values=["8bit", "10bit", "12bit"],
width=10,
state="readonly",
)
sdr_bit_depth_combo.grid(row=3, column=1, sticky=tk.W, padx=5, pady=2)
# ==================== HDR信号格式设置 ====================
self.hdr_signal_frame = ttk.Frame(self.signal_tabs)
# 配置列权重
self.hdr_signal_frame.grid_columnconfigure(0, weight=0)
self.hdr_signal_frame.grid_columnconfigure(1, weight=1)
self.signal_tabs.add(self.hdr_signal_frame, text="HDR")
# 色彩空间
ttk.Label(self.hdr_signal_frame, text="色彩空间:").grid(
row=0, column=0, sticky=tk.W, padx=5, pady=2
)
self.hdr_color_space_var = tk.StringVar(value="BT.2020")
hdr_color_space_combo = ttk.Combobox(
self.hdr_signal_frame,
textvariable=self.hdr_color_space_var,
values=["BT.2020", "DCI-P3"],
width=10,
state="readonly",
)
hdr_color_space_combo.grid(row=0, column=1, sticky=tk.W, padx=5, pady=2)
# Metadata设置
ttk.Label(self.hdr_signal_frame, text="Metadata:").grid(
row=1, column=0, sticky=tk.W, padx=5, pady=2
)
self.hdr_metadata_frame = ttk.Frame(self.hdr_signal_frame)
self.hdr_metadata_frame.grid(
row=1, column=1, rowspan=2, sticky=tk.W, padx=5, pady=2
)
ttk.Label(self.hdr_metadata_frame, text="MaxCLL:").grid(
row=0, column=0, sticky=tk.W
)
self.hdr_maxcll_var = tk.StringVar(value="1000")
ttk.Entry(
self.hdr_metadata_frame, textvariable=self.hdr_maxcll_var, width=6
).grid(row=0, column=1, padx=2)
ttk.Label(self.hdr_metadata_frame, text="MaxFALL:").grid(
row=1, column=0, sticky=tk.W
)
self.hdr_maxfall_var = tk.StringVar(value="400")
ttk.Entry(
self.hdr_metadata_frame, textvariable=self.hdr_maxfall_var, width=6
).grid(row=1, column=1, padx=2)
# 数据范围
ttk.Label(self.hdr_signal_frame, text="数据范围:").grid(
row=3, column=0, sticky=tk.W, padx=5, pady=2
)
self.hdr_data_range_var = tk.StringVar(value="Full")
hdr_range_combo = ttk.Combobox(
self.hdr_signal_frame,
textvariable=self.hdr_data_range_var,
values=["Full", "Limited"],
width=10,
state="readonly",
)
hdr_range_combo.grid(row=3, column=1, sticky=tk.W, padx=5, pady=2)
# 编码位深
ttk.Label(self.hdr_signal_frame, text="编码位深:").grid(
row=4, column=0, sticky=tk.W, padx=5, pady=2
)
self.hdr_bit_depth_var = tk.StringVar(value="8bit")
hdr_bit_depth_combo = ttk.Combobox(
self.hdr_signal_frame,
textvariable=self.hdr_bit_depth_var,
values=["8bit", "10bit", "12bit"],
width=10,
state="readonly",
)
hdr_bit_depth_combo.grid(row=4, column=1, sticky=tk.W, padx=5, pady=2)
# ==================== 初始化:默认只启用屏模组 Tab ====================
self.signal_tabs.select(0) # 选中屏模组
self.signal_tabs.tab(1, state="disabled") # 禁用 SDR
self.signal_tabs.tab(2, state="disabled") # 禁用 HDR
def create_connection_content(self):
"""创建设备连接区域"""
# 创建设备连接区域的主框架
com_frame = ttk.Frame(self.connection_frame)
com_frame.pack(fill=tk.X, pady=5)
# 获取可用的COM端口列表
available_ports = self.get_available_com_ports()
# 使用网格布局,更整齐
ttk.Label(com_frame, text="UCD列表:").grid(
row=0, column=0, sticky=ttk.W, padx=5, pady=3
)
self.ucd_list_var = tk.StringVar(value=self.config.device_config["ucd_list"])
self.ucd_list_combo = ttk.Combobox(
com_frame,
textvariable=self.ucd_list_var,
values=available_ports,
width=10,
state="readonly",
)
self.ucd_list_combo.grid(row=0, column=1, sticky=ttk.W, padx=5, pady=3)
self.ucd_list_combo.bind("<<ComboboxSelected>>", self.update_config)
# 添加UCD连接状态指示器
self.ucd_status_indicator = tk.Canvas(
com_frame, width=15, height=15, bg="gray", highlightthickness=0
)
self.ucd_status_indicator.grid(row=0, column=2, padx=(10, 20))
self.ucd_status_indicator.config(bg="gray")
# 添加按钮框架
button_frame = ttk.Frame(com_frame)
button_frame.grid(row=3, column=0, columnspan=3, pady=3, sticky="w")
connect_icon = load_icon("assets/connect-svgrepo-com.png")
self.check_button = ttk.Button(
button_frame,
image=connect_icon,
bootstyle="link",
takefocus=False,
command=self.check_com_connections,
)
self.check_button.image = connect_icon
self.check_button.pack(side="left", padx=0, pady=3)
disconnect_icon = load_icon("assets/disconnect-svgrepo-com.png")
# 断开连接按钮
self.disconnect_button = ttk.Button(
button_frame,
image=disconnect_icon,
bootstyle="link",
takefocus=False,
command=self.disconnect_com_connections,
)
self.disconnect_button.image = disconnect_icon # 防止图标被垃圾回收
self.disconnect_button.pack(side="left", padx=0, pady=3)
refresh_icon = load_icon("assets/refresh-svgrepo-com.png")
self.refresh_button = ttk.Button(
button_frame,
image=refresh_icon,
bootstyle="link",
takefocus=False,
command=self.refresh_com_ports,
)
self.refresh_button.image = refresh_icon # 防止图标被垃圾回收
self.refresh_button.pack(side="left", padx=0, pady=3)
# CA端口
ttk.Label(com_frame, text="CA端口:").grid(
row=1, column=0, sticky=ttk.W, padx=5, pady=3
)
self.ca_com_var = tk.StringVar(value=self.config.device_config["ca_com"])
self.ca_com_combo = ttk.Combobox(
com_frame,
textvariable=self.ca_com_var,
values=available_ports,
width=10,
state="readonly",
)
self.ca_com_combo.grid(row=1, column=1, sticky=ttk.W, padx=5, pady=3)
self.ca_com_combo.bind("<<ComboboxSelected>>", self.update_config)
# 添加CA连接状态指示器
self.ca_status_indicator = tk.Canvas(
com_frame, width=15, height=15, bg="gray", highlightthickness=0
)
self.ca_status_indicator.grid(row=1, column=2, padx=(10, 20))
self.ca_status_indicator.config(bg="gray")
# 添加CA通道设置
ttk.Label(com_frame, text="CA通道:").grid(
row=2, column=0, sticky=tk.W, padx=5, pady=3
)
self.ca_channel_var = tk.StringVar(
value=self.config.device_config["ca_channel"]
)
ca_channel_combo = ttk.Combobox(
com_frame,
textvariable=self.ca_channel_var,
values=[str(i) for i in range(11)],
width=10,
state="readonly",
)
ca_channel_combo.grid(row=2, column=1, sticky=ttk.W, padx=5, pady=3)
ca_channel_combo.bind("<<ComboboxSelected>>", self.update_config)
get_available_ucd_ports = _dev_get_available_ucd_ports
get_available_com_ports = _dev_get_available_com_ports
refresh_com_ports = _dev_refresh_com_ports
check_com_connections = _dev_check_com_connections
update_connection_indicator = _dev_update_connection_indicator
check_port_connection = _dev_check_port_connection
enable_com_widgets = _dev_enable_com_widgets
disconnect_com_connections = _dev_disconnect_com_connections
def create_test_type_frame(self):
"""创建测试类型选择区域(侧边栏形式)"""
# 设置测试类型变量
self.test_type_var = tk.StringVar(value="screen_module")
# 创建测试类型按钮并放置在侧边栏
test_types = [
("屏模组性能测试", "screen_module"),
("SDR Movie测试", "sdr_movie"),
("HDR Movie测试", "hdr_movie"),
]
for text, type_value in test_types:
btn = ttk.Button(
master=self.sidebar_frame,
text=text,
style="Sidebar.TButton",
padding=10,
command=lambda v=type_value: self.change_test_type(v),
takefocus=False,
)
btn.pack(fill=tk.X, padx=0, pady=1)
# 保存按钮引用以便后续更新样式
setattr(self, f"{type_value}_btn", btn)
# 添加分隔线
ttk.Separator(self.sidebar_frame, orient="horizontal").pack(
fill=tk.X, padx=10, pady=10
)
# ✅ 只保留日志按钮
self.log_btn = ttk.Button(
self.sidebar_frame,
text="测试日志",
style="Sidebar.TButton",
command=self.toggle_log_panel,
takefocus=False,
)
self.log_btn.pack(fill=tk.X, padx=0, pady=1)
# Local Dimming 测试按钮
self.local_dimming_btn = ttk.Button(
self.sidebar_frame,
text="Local Dimming",
style="Sidebar.TButton",
command=self.toggle_local_dimming_panel,
takefocus=False,
)
self.local_dimming_btn.pack(fill=tk.X, padx=0, pady=1)
# 注册面板按钮(只保留日志)
if hasattr(self, "panels"):
if "log" in self.panels:
self.panels["log"]["button"] = self.log_btn
if "local_dimming" in self.panels:
self.panels["local_dimming"]["button"] = self.local_dimming_btn
def update_config_info_display(self):
"""更新配置信息显示"""
if hasattr(self, "config") and hasattr(self.config, "get_current_config"):
current_config = self.config.get_current_config()
info_text = f"测试类型: {current_config.get('name', '未知')}\n"
info_text += (
f"测试项目: {', '.join(current_config.get('test_items', []))}\n"
)
info_text += f"信号格式: {current_config.get('signal_format', 'none')}\n"
info_text += f"色彩空间: {current_config.get('color_space', 'unknown')}\n"
info_text += f"位深度: {current_config.get('bit_depth', 'unknown')}"
# 高亮当前选中的测试类型
self.update_sidebar_selection()
def create_operation_frame(self):
"""创建操作按钮区域"""
operation_frame = ttk.Frame(self.control_frame_top)
operation_frame.pack(fill=tk.X, padx=5, pady=10)
self.start_btn = ttk.Button(
operation_frame,
text="开始测试",
command=self.start_test,
style="success.TButton",
)
self.start_btn.pack(side=tk.LEFT, padx=5)
self.stop_btn = ttk.Button(
operation_frame,
text="停止测试",
command=self.stop_test,
style="danger.TButton",
state=tk.DISABLED,
)
self.stop_btn.pack(side=tk.LEFT, padx=5)
self.save_btn = ttk.Button(
operation_frame,
text="保存结果",
command=self.save_results,
state=tk.DISABLED,
)
self.save_btn.pack(side=tk.LEFT, padx=5)
self.clear_config_btn = ttk.Button(
operation_frame,
text="清理配置",
command=self.clear_config_file,
)
self.clear_config_btn.pack(side=tk.LEFT, padx=5)
self.custom_btn = ttk.Button(
operation_frame,
text="客户模版",
command=self.start_custom_template_test,
style="info.TButton",
)
self.custom_btn.pack(side=tk.LEFT, padx=5)
self.update_custom_button_visibility()
def create_custom_template_result_panel(self):
"""创建客户模板结果显示区域(黑底表格)"""
self.custom_result_frame = ttk.LabelFrame(
self.custom_template_tab_frame, text="客户模板结果显示"
)
self.custom_result_frame.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=5, pady=5
)
table_container = tk.Frame(
self.custom_result_frame,
bg="#000000",
highlightthickness=1,
highlightbackground="#5a5a5a",
)
table_container.pack(fill=tk.BOTH, expand=True, padx=5, pady=5)
style = ttk.Style()
style.configure(
"CustomResult.Treeview",
background="#000000",
fieldbackground="#000000",
foreground="#ffffff",
rowheight=28,
borderwidth=0,
)
style.configure(
"CustomResult.Treeview.Heading",
background="#2f2f2f",
foreground="#f5f5f5",
font=("Microsoft YaHei", 10, "bold"),
relief="flat",
)
style.map(
"CustomResult.Treeview",
background=[("selected", "#1f4e79")],
foreground=[("selected", "#ffffff")],
)
style.map(
"CustomResult.Treeview.Heading",
background=[("active", "#3b3b3b")],
)
columns = (
"Pattern",
"No.",
"X",
"Y",
"Z",
"x",
"y",
"Lv",
"u'",
"v'",
"Tcp",
"duv",
"λd/λc",
"Pe"
)
self.custom_result_tree = ttk.Treeview(
table_container,
columns=columns,
show="headings",
height=4,
style="CustomResult.Treeview",
)
column_widths = {
"Pattern": 90,
"No.": 60,
"X": 80,
"Y": 80,
"Z": 80,
"x": 80,
"y": 80,
"Lv": 80,
"u'": 80,
"v'": 80,
"Tcp": 90,
"duv": 80,
"λd/λc": 95,
"Pe": 80,
}
for col in columns:
self.custom_result_tree.heading(col, text=col)
self.custom_result_tree.column(
col,
width=column_widths.get(col, 80),
minwidth=60,
anchor=tk.CENTER,
stretch=False,
)
y_scroll = ttk.Scrollbar(
table_container,
orient=tk.VERTICAL,
command=self.custom_result_tree.yview,
)
x_scroll = ttk.Scrollbar(
table_container,
orient=tk.HORIZONTAL,
command=self.custom_result_tree.xview,
)
self.custom_result_tree.configure(
yscrollcommand=y_scroll.set,
xscrollcommand=x_scroll.set,
)
self.custom_result_tree.grid(row=0, column=0, sticky="nsew")
y_scroll.grid(row=0, column=1, sticky="ns")
x_scroll.grid(row=1, column=0, sticky="ew")
# 右键菜单复制全部数据Excel 可直接按行列粘贴)
self.custom_result_menu = tk.Menu(self.root, tearoff=0)
self.custom_result_menu.add_command(
label="复制全部数据",
command=self.copy_custom_result_table,
)
self.custom_result_menu.add_command(
label="单步测试",
command=self.start_custom_row_single_step,
)
# self.custom_result_menu.add_separator()
# self.custom_result_menu.add_command(
# label="单步测试",
# command=self.fill_custom_result_test_data,
# )
self.custom_result_tree.bind("<Button-3>", self.show_custom_result_context_menu)
table_container.grid_rowconfigure(0, weight=1)
table_container.grid_columnconfigure(0, weight=1)
def show_custom_result_context_menu(self, event):
"""显示客户模板结果右键菜单"""
if not hasattr(self, "custom_result_tree") or not hasattr(
self, "custom_result_menu"
):
return
if self.testing:
# 测试进行中锁定客户模板结果表,禁止右键菜单。
return
row_id = self.custom_result_tree.identify_row(event.y)
if row_id:
self.custom_result_tree.selection_set(row_id)
self.custom_result_tree.focus(row_id)
has_rows = len(self.custom_result_tree.get_children()) > 0
has_selection = len(self.custom_result_tree.selection()) > 0
can_single_step = (
has_selection
and self.ca is not None
and self.ucd is not None
and not self.testing
)
try:
self.custom_result_menu.entryconfigure(
0,
state=("normal" if has_rows else "disabled"),
)
self.custom_result_menu.entryconfigure(
1,
state=("normal" if can_single_step else "disabled"),
)
self.custom_result_menu.tk_popup(event.x_root, event.y_root)
finally:
self.custom_result_menu.grab_release()
def set_custom_result_table_locked(self, locked):
"""锁定/解锁客户模板结果表(测试期间禁选择、禁右键)"""
if not hasattr(self, "custom_result_tree"):
return
try:
self.custom_result_tree.configure(selectmode=("none" if locked else "browse"))
except Exception:
pass
def start_custom_row_single_step(self):
"""单步测试当前选中行:发送该行 pattern 并覆盖该行测量结果"""
if not hasattr(self, "custom_result_tree"):
return
if self.ca is None or self.ucd is None:
messagebox.showerror("错误", "请先连接CA410和信号发生器")
return
if self.testing:
messagebox.showinfo("提示", "测试进行中,无法执行单步测试")
return
selected = self.custom_result_tree.selection()
if not selected:
messagebox.showinfo("提示", "请先选中一行再执行单步测试")
return
item_id = selected[0]
values = self.custom_result_tree.item(item_id, "values")
if not values:
messagebox.showinfo("提示", "选中行没有有效数据")
return
row_no = None
if len(values) > 1:
try:
row_no = int(float(values[1]))
except Exception:
row_no = None
if row_no is None or row_no <= 0:
children = list(self.custom_result_tree.get_children())
row_no = children.index(item_id) + 1 if item_id in children else 1
self._clear_custom_result_row(item_id, row_no)
threading.Thread(
target=self._run_custom_row_single_step,
args=(item_id, row_no),
daemon=True,
).start()
def _clear_custom_result_row(self, item_id, row_no):
"""单步测试开始前清空指定行的测量数据"""
if not hasattr(self, "custom_result_tree"):
return
old_values = list(self.custom_result_tree.item(item_id, "values"))
pattern_name = old_values[0] if len(old_values) > 0 else f"P {row_no}"
cleared_values = (
pattern_name,
row_no,
"---",
"---",
"---",
"---",
"---",
"---",
"---",
"---",
"---",
"---",
"---",
"---",
)
self.custom_result_tree.item(item_id, values=cleared_values)
self.custom_result_tree.see(item_id)
def _run_custom_row_single_step(self, item_id, row_no):
"""后台执行客户模板单步测试"""
try:
self._dispatch_ui(self.status_var.set, f"单步测试第 {row_no} 行...")
self.log_gui.log(f"开始单步测试第 {row_no}")
self.config.set_current_pattern("custom")
# 与批量 custom 测试保持一致:根据当前 SDR 配置转换 pattern 数据。
import copy
data_range = self.sdr_data_range_var.get()
original_params = copy.deepcopy(self.config.default_pattern_temp["pattern_params"])
converted_params = convert_pattern_params(
pattern_params=original_params,
data_range=data_range,
verbose=False,
)
temp_config = self.config.get_temp_config_with_converted_params(
mode="custom",
converted_params=converted_params,
)
if row_no > len(converted_params):
self.log_gui.log(f"❌ 行号超出 pattern 范围: {row_no}/{len(converted_params)}")
self._dispatch_ui(self.status_var.set, "单步测试失败:行号超范围")
return
self.ucd.set_ucd_params(temp_config)
pattern_param = converted_params[row_no - 1]
self.ucd.set_pattern(self.ucd.current_pattern, pattern_param)
self.ucd.run()
time.sleep(self.pattern_settle_time)
# 测量显示模式1读取 Tcp/duv/Lv显示模式8读取 λd/Pe/Lv 与 XYZ。
self.ca.set_Display(1)
tcp, duv, lv, _, _, _ = self.ca.readAllDisplay()
self.ca.set_Display(8)
lambda_d, pe, lv, X, Y, Z = self.ca.readAllDisplay()
xy = colour.XYZ_to_xy(np.array([X, Y, Z]))
u_prime, v_prime, _ = colour.XYZ_to_CIE1976UCS(np.array([X, Y, Z]))
row_data = {
"X": X,
"Y": Y,
"Z": Z,
"x": xy[0],
"y": xy[1],
"Lv": lv,
"u_prime": u_prime,
"v_prime": v_prime,
"Tcp": tcp,
"duv": duv,
"lambda_d": lambda_d,
"Pe": pe,
}
self._dispatch_ui(
self._update_custom_result_row, item_id, row_no, row_data
)
self.log_gui.log(f"✓ 第 {row_no} 行单步测试完成并已覆盖")
self._dispatch_ui(self.status_var.set, f"{row_no} 行单步测试完成")
except Exception as e:
self.log_gui.log(f"❌ 单步测试失败: {str(e)}")
self._dispatch_ui(self.status_var.set, "单步测试失败")
def _update_custom_result_row(self, item_id, row_no, result_data):
"""覆盖更新客户模板结果表中指定行"""
def fmt(value, digits=4):
if value is None:
return "--"
if isinstance(value, (int, float, np.floating)):
# CA 返回异常哨兵值(如 -99999999显示为占位符。
if (not np.isfinite(value)) or value <= -99999998:
return "---"
return f"{value:.{digits}f}"
try:
numeric_value = float(value)
if (not np.isfinite(numeric_value)) or numeric_value <= -99999998:
return "---"
except (TypeError, ValueError):
pass
return str(value)
old_values = list(self.custom_result_tree.item(item_id, "values"))
pattern_name = old_values[0] if len(old_values) > 0 else f"P {row_no}"
new_values = (
pattern_name,
row_no,
fmt(result_data.get("X")),
fmt(result_data.get("Y")),
fmt(result_data.get("Z")),
fmt(result_data.get("x")),
fmt(result_data.get("y")),
fmt(result_data.get("Lv"), 3),
fmt(result_data.get("u_prime")),
fmt(result_data.get("v_prime")),
fmt(result_data.get("Tcp"), 1),
fmt(result_data.get("duv"), 5),
fmt(result_data.get("lambda_d"), 1),
fmt(result_data.get("Pe"), 1),
)
self.custom_result_tree.item(item_id, values=new_values)
def copy_custom_result_table(self):
"""复制客户模板结果表格到剪贴板(不含标题行/No./Pattern"""
if not hasattr(self, "custom_result_tree"):
return
items = self.custom_result_tree.get_children()
if not items:
messagebox.showinfo("提示", "当前没有可复制的数据")
return
lines = []
columns = tuple(self.custom_result_tree["columns"])
excluded_col_indexes = {
idx
for idx, col_name in enumerate(columns)
if col_name in ("No.", "Pattern")
}
for item in items:
values = self.custom_result_tree.item(item, "values")
# 跳过 No. 和 Pattern 两列,只保留测量数据列。
data_values = [
v for idx, v in enumerate(values) if idx not in excluded_col_indexes
]
row = [
str(v).replace("\t", " ").replace("\n", " ")
for v in data_values
]
lines.append("\t".join(row))
clipboard_text = "\n".join(lines)
self.root.clipboard_clear()
self.root.clipboard_append(clipboard_text)
self.root.update_idletasks()
if hasattr(self, "status_var"):
self.status_var.set(f"已复制 {len(items)} 行客户模板数据到剪贴板")
if hasattr(self, "log_gui"):
self.log_gui.log(f"✓ 已复制客户模板表格数据({len(items)} 行)")
def fill_custom_result_test_data(self):
"""填充 147 行客户模板测试数据(用于界面验证)"""
if not hasattr(self, "custom_result_tree"):
return
self.clear_custom_template_results()
pattern_names = []
if hasattr(self, "config") and hasattr(self.config, "get_temp_pattern_names"):
pattern_names = self.config.get_temp_pattern_names()
total_rows = 147
for i in range(1, total_rows + 1):
ratio = (i - 1) / (total_rows - 1) if total_rows > 1 else 0
row_data = {
"pattern_name": (
pattern_names[i - 1] if i - 1 < len(pattern_names) else f"P {i}"
),
"X": 0.8 + ratio * 120,
"Y": 0.9 + ratio * 135,
"Z": 1.1 + ratio * 145,
"x": 0.24 + ratio * 0.10,
"y": 0.26 + ratio * 0.10,
"Lv": 1.0 + ratio * 500,
"u_prime": 0.16 + ratio * 0.12,
"v_prime": 0.42 + ratio * 0.08,
"Tcp": 1800 + ratio * 12000,
"duv": -0.01 + ratio * 0.03,
"lambda_d": 430 + ratio * 200,
"Pe": 10 + ratio * 90,
}
self.append_custom_template_result(i, row_data)
if hasattr(self, "chart_notebook") and hasattr(self, "custom_template_tab_frame"):
self.chart_notebook.select(self.custom_template_tab_frame)
if hasattr(self, "status_var"):
self.status_var.set("已填充 147 行客户模板测试数据")
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已填充 147 行客户模板测试数据")
def clear_custom_template_results(self):
"""清空客户模板结果表格"""
if not hasattr(self, "custom_result_tree"):
return
for item in self.custom_result_tree.get_children():
self.custom_result_tree.delete(item)
def auto_expand_custom_result_view(self):
"""当客户模板表格有数据时,自动扩展窗口以尽量完整显示所有列"""
if not hasattr(self, "custom_result_tree"):
return
if len(self.custom_result_tree.get_children()) == 0:
return
try:
self.root.update_idletasks()
columns = tuple(self.custom_result_tree["columns"])
columns_total_width = 0
for col in columns:
columns_total_width += int(self.custom_result_tree.column(col, "width"))
left_panel_width = self.left_frame.winfo_width() if hasattr(self, "left_frame") else 180
if left_panel_width <= 1:
left_panel_width = 180
# 列宽 + 左侧导航 + 滚动条/边框/外边距。
target_width = int(left_panel_width + columns_total_width + 120)
screen_max_width = max(900, self.root.winfo_screenwidth() - 40)
target_width = min(target_width, screen_max_width)
current_width = self.root.winfo_width()
current_height = self.root.winfo_height()
# 只扩不缩,避免用户窗口被反复改变。
if target_width > current_width:
self.root.geometry(f"{target_width}x{current_height}")
self.root.update_idletasks()
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"⚠️ 自动扩展客户模板窗口失败: {str(e)}")
def append_custom_template_result(self, row_no, result_data):
"""追加一条客户模板结果到表格"""
def fmt(value, digits=4):
if value is None:
return "--"
if isinstance(value, (int, float, np.floating)):
# CA 返回异常哨兵值(如 -99999999显示为占位符。
if (not np.isfinite(value)) or value <= -99999998:
return "---"
return f"{value:.{digits}f}"
try:
numeric_value = float(value)
if (not np.isfinite(numeric_value)) or numeric_value <= -99999998:
return "---"
except (TypeError, ValueError):
pass
return str(value)
row_values = (
result_data.get("pattern_name", f"P {row_no}"),
row_no,
fmt(result_data.get("X")),
fmt(result_data.get("Y")),
fmt(result_data.get("Z")),
fmt(result_data.get("x")),
fmt(result_data.get("y")),
fmt(result_data.get("Lv"), 3),
fmt(result_data.get("u_prime")),
fmt(result_data.get("v_prime")),
fmt(result_data.get("Tcp"), 1),
fmt(result_data.get("duv"), 5),
fmt(result_data.get("lambda_d"), 1),
fmt(result_data.get("Pe"), 1)
)
if hasattr(self, "custom_result_tree"):
item_id = self.custom_result_tree.insert("", tk.END, values=row_values)
# 新增数据后自动跳转到最新行。
self.custom_result_tree.see(item_id)
self.auto_expand_custom_result_view()
def start_custom_template_test(self):
"""开始客户模板测试SDR"""
if hasattr(self, "chart_notebook") and hasattr(self, "custom_template_tab_frame"):
self.chart_notebook.select(self.custom_template_tab_frame)
if self.ca is None or self.ucd is None:
messagebox.showerror("错误", "请先连接CA410和信号发生器")
return
if self.testing:
messagebox.showinfo("提示", "测试已在进行中")
return
if hasattr(self, "debug_container"):
self.debug_container.pack_forget()
self.testing = True
self.start_btn.config(state=tk.DISABLED)
self.stop_btn.config(state=tk.NORMAL)
self.save_btn.config(state=tk.DISABLED)
self.clear_config_btn.config(state=tk.DISABLED)
self.custom_btn.config(state=tk.DISABLED)
self.status_var.set("客户模板测试进行中...")
self.log_gui.clear_log()
self.clear_custom_template_results()
confirm = messagebox.askyesno(
"确认测试", "开始客户模板测试SDR\n\n将采集并显示客户模板格式结果。"
)
if not confirm:
self.testing = False
self.start_btn.config(state=tk.NORMAL)
self.stop_btn.config(state=tk.DISABLED)
self.clear_config_btn.config(state=tk.NORMAL)
self.custom_btn.config(state=tk.NORMAL)
self.status_var.set("测试已取消")
self.set_custom_result_table_locked(False)
return
self.set_custom_result_table_locked(True)
self.test_thread = threading.Thread(target=self.run_custom_sdr_test, args=([],))
self.test_thread.daemon = True
self.test_thread.start()
def register_panel(self, panel_name, frame, button, visible_attr):
"""注册一个面板到管理系统"""
self.panels[panel_name] = {
"frame": frame,
"button": button,
"visible_attr": visible_attr,
}
def show_panel(self, panel_name):
"""显示指定面板,隐藏其他所有面板"""
if panel_name not in self.panels:
return
# 如果当前面板就是要显示的面板,则隐藏它
if self.current_panel == panel_name:
self.hide_all_panels()
return
# 隐藏所有面板
self.hide_all_panels()
# 显示指定面板
panel_info = self.panels[panel_name]
# 隐藏主内容区域
self.control_frame_top.pack_forget()
self.control_frame_middle.pack_forget()
self.control_frame_bottom.pack_forget()
# 显示目标面板
panel_info["frame"].pack(side=tk.TOP, fill=tk.BOTH, expand=True, padx=5, pady=5)
# 更新按钮样式
if panel_info["button"]:
panel_info["button"].configure(style="SidebarSelected.TButton")
# 更新状态
setattr(self, panel_info["visible_attr"], True)
self.current_panel = panel_name
def hide_all_panels(self):
"""隐藏所有面板,显示主内容区域"""
# 隐藏所有注册的面板
for panel_name, panel_info in self.panels.items():
panel_info["frame"].pack_forget()
if panel_info["button"]:
panel_info["button"].configure(style="Sidebar.TButton")
setattr(self, panel_info["visible_attr"], False)
# 显示主内容区域
self.control_frame_top.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
self.control_frame_middle.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
self.control_frame_bottom.pack(
side=tk.TOP, fill=tk.BOTH, expand=True, padx=0, pady=5
)
self.current_panel = None
def create_log_panel(self):
"""创建日志面板"""
self.log_frame = ttk.Frame(self.content_frame)
self.log_gui = PQLogGUI(self.log_frame)
self.log_gui.pack(fill=tk.BOTH, expand=True, padx=10, pady=10)
# 默认隐藏日志面板
self.log_visible = False
# 注册到面板管理系统
self.register_panel(
"log", self.log_frame, None, "log_visible"
) # button会在后面设置
def create_local_dimming_panel(self):
"""创建 Local Dimming 测试面板 - 手动控制版"""
self.local_dimming_frame = ttk.Frame(self.content_frame)
# 主容器
main_container = ttk.Frame(self.local_dimming_frame, padding=10)
main_container.pack(fill=tk.BOTH, expand=True)
# ==================== 1. 标题 ====================
title_frame = ttk.Frame(main_container)
title_frame.pack(fill=tk.X, pady=(0, 10))
ttk.Label(
title_frame,
text="🔆 Local Dimming 窗口测试",
font=("微软雅黑", 14, "bold"),
).pack(side=tk.LEFT)
# ==================== 2. 窗口百分比按钮 ====================
window_frame = ttk.LabelFrame(
main_container, text="🔆 窗口百分比(点击发送)", padding=10
)
window_frame.pack(fill=tk.X, pady=(0, 10))
# 说明文字
ttk.Label(
window_frame,
text="点击按钮发送对应百分比的白色窗口(黑色背景 + 居中白色矩形)",
font=("", 9),
foreground="#28a745",
).pack(pady=(0, 8))
# 第一行1%, 2%, 5%, 10%, 18%
row1 = ttk.Frame(window_frame)
row1.pack(fill=tk.X, pady=(0, 5))
percentages_row1 = [1, 2, 5, 10, 18]
for p in percentages_row1:
ttk.Button(
row1,
text=f"{p}%",
command=lambda p=p: self.send_ld_window(p),
bootstyle="success",
width=12,
).pack(side=tk.LEFT, padx=3)
# 第二行25%, 50%, 75%, 100%
row2 = ttk.Frame(window_frame)
row2.pack(fill=tk.X)
percentages_row2 = [25, 50, 75, 100]
for p in percentages_row2:
ttk.Button(
row2,
text=f"{p}%",
command=lambda p=p: self.send_ld_window(p),
bootstyle="success",
width=12,
).pack(side=tk.LEFT, padx=3)
# ==================== 4. CA410 采集按钮 ====================
measure_frame = ttk.LabelFrame(main_container, text="📊 CA410 测量", padding=10)
measure_frame.pack(fill=tk.X, pady=(0, 10))
measure_btn_frame = ttk.Frame(measure_frame)
measure_btn_frame.pack(fill=tk.X)
self.ld_measure_btn = ttk.Button(
measure_btn_frame,
text="📏 采集当前亮度",
command=self.measure_ld_luminance,
bootstyle="primary",
width=15,
)
self.ld_measure_btn.pack(side=tk.LEFT, padx=(0, 5))
# 显示测量结果
self.ld_result_label = ttk.Label(
measure_btn_frame,
text="亮度: -- cd/m² | x: -- | y: --",
font=("Consolas", 10),
foreground="#007bff",
)
self.ld_result_label.pack(side=tk.LEFT, padx=(10, 0))
# ==================== 5. 测试结果表格 ====================
result_frame = ttk.LabelFrame(main_container, text="📋 测试记录", padding=10)
result_frame.pack(fill=tk.BOTH, expand=True, pady=(0, 10))
# Treeview
columns = ("窗口百分比", "亮度 (cd/m²)", "x", "y", "时间")
self.ld_tree = ttk.Treeview(
result_frame, columns=columns, show="headings", height=10
)
for col in columns:
self.ld_tree.heading(col, text=col)
if col == "窗口百分比":
self.ld_tree.column(col, width=100, anchor=tk.CENTER)
elif col == "时间":
self.ld_tree.column(col, width=120, anchor=tk.CENTER)
else:
self.ld_tree.column(col, width=100, anchor=tk.CENTER)
self.ld_tree.pack(side=tk.LEFT, fill=tk.BOTH, expand=True)
# 滚动条
scrollbar = ttk.Scrollbar(
result_frame, orient=tk.VERTICAL, command=self.ld_tree.yview
)
scrollbar.pack(side=tk.RIGHT, fill=tk.Y)
self.ld_tree.configure(yscrollcommand=scrollbar.set)
# ==================== 6. 底部操作按钮 ====================
bottom_frame = ttk.Frame(main_container)
bottom_frame.pack(fill=tk.X)
self.ld_clear_btn = ttk.Button(
bottom_frame,
text="🗑️ 清空记录",
command=self.clear_ld_records,
bootstyle="danger-outline",
width=12,
)
self.ld_clear_btn.pack(side=tk.LEFT, padx=(0, 5))
self.ld_save_btn = ttk.Button(
bottom_frame,
text="💾 保存结果",
command=self.save_local_dimming_results,
bootstyle="info",
width=12,
)
self.ld_save_btn.pack(side=tk.LEFT)
# 默认隐藏
self.local_dimming_visible = False
# 注册到面板管理系统
self.register_panel(
"local_dimming",
self.local_dimming_frame,
None,
"local_dimming_visible",
)
# 初始化当前窗口百分比(用于记录)
self.current_ld_percentage = None
def toggle_local_dimming_panel(self):
"""切换 Local Dimming 面板显示"""
self.show_panel("local_dimming")
def toggle_log_panel(self):
"""切换日志面板的显示状态"""
self.show_panel("log")
create_result_chart_frame = _cf_create_result_chart_frame
on_chart_tab_changed = _cf_on_chart_tab_changed
def change_test_type(self, test_type):
"""切换测试类型"""
# 切换测试类型时,自动隐藏日志面板和 Local Dimming 面板
if self.current_panel in ("log", "local_dimming"):
self.hide_all_panels()
# 先保存当前测试类型的色度参数
if hasattr(self, "cct_x_ideal_var"):
try:
current_type = self.config.current_test_type
if current_type == "screen_module":
self.save_cct_params()
elif current_type == "sdr_movie":
self.save_sdr_cct_params()
elif current_type == "hdr_movie":
if hasattr(self, "save_hdr_cct_params"):
self.save_hdr_cct_params()
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"保存参数失败: {str(e)}")
# 更新测试类型
self.test_type_var.set(test_type)
if hasattr(self, "config") and hasattr(self.config, "set_current_test_type"):
success = self.config.set_current_test_type(test_type)
if not success and hasattr(self, "log_gui"):
self.log_gui.log(f"切换测试类型失败: {test_type}")
# 更新测试项目和侧边栏
self.update_test_items()
self.update_sidebar_selection()
self.on_test_type_change()
# ========== ✅ 1. 切换信号格式 Tab ==========
if hasattr(self, "signal_tabs"):
try:
# 定义测试类型与信号格式 Tab 的映射
tab_mapping = {
"screen_module": 0, # 屏模组测试
"sdr_movie": 1, # SDR测试
"hdr_movie": 2, # HDR
}
target_tab = tab_mapping.get(test_type, 0)
# 先启用所有 Tab
for i in range(3):
self.signal_tabs.tab(i, state="normal")
# 切换到目标 Tab
self.signal_tabs.select(target_tab)
# 强制刷新显示
self.signal_tabs.update()
self.root.update_idletasks()
# 强制显示对应的 Frame
if target_tab == 0:
self.screen_module_signal_frame.tkraise()
elif target_tab == 1:
self.sdr_signal_frame.tkraise()
elif target_tab == 2:
self.hdr_signal_frame.tkraise()
# 禁用其他 Tab
for i in range(3):
if i != target_tab:
self.signal_tabs.tab(i, state="disabled")
# 日志记录
if hasattr(self, "log_gui"):
tab_names = ["屏模组测试", "SDR测试", "HDR"]
self.log_gui.log(f"✓ 已切换到 {tab_names[target_tab]} 信号格式")
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"切换信号格式失败: {str(e)}")
else:
if hasattr(self, "log_gui"):
self.log_gui.log("⚠️ signal_tabs 尚未创建")
# ========== 2. 动态切换 Gamma/EOTF Tab ==========
if hasattr(self, "chart_notebook"):
try:
current_tabs = list(self.chart_notebook.tabs())
# 获取当前 Tab 的索引
gamma_tab_id = str(self.gamma_chart_frame)
eotf_tab_id = str(self.eotf_chart_frame)
if test_type == "hdr_movie":
# ========== HDR 测试:移除 Gamma添加 EOTF ==========
# 1. 如果 Gamma Tab 存在,移除它
if gamma_tab_id in current_tabs:
gamma_index = current_tabs.index(gamma_tab_id)
self.chart_notebook.forget(gamma_index)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已隐藏 Gamma 曲线 Tab")
# 2. 如果 EOTF Tab 不存在,添加它(在色域图之后)
if eotf_tab_id not in current_tabs:
self.chart_notebook.insert(
1, self.eotf_chart_frame, text="EOTF 曲线"
)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已显示 EOTF 曲线 Tab")
else:
# ========== SDR/屏模组测试:移除 EOTF添加 Gamma ==========
# 1. 如果 EOTF Tab 存在,移除它
if eotf_tab_id in current_tabs:
eotf_index = current_tabs.index(eotf_tab_id)
self.chart_notebook.forget(eotf_index)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已隐藏 EOTF 曲线 Tab")
# 2. 如果 Gamma Tab 不存在,添加它(在色域图之后)
if gamma_tab_id not in current_tabs:
self.chart_notebook.insert(
1, self.gamma_chart_frame, text="Gamma 曲线"
)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已显示 Gamma 曲线 Tab")
# ========== 3. 仅在 SDR 测试显示客户模板结果 Tab ==========
custom_tab_id = str(self.custom_template_tab_frame)
current_tabs = list(self.chart_notebook.tabs())
if test_type == "sdr_movie":
if custom_tab_id not in current_tabs:
self.chart_notebook.add(
self.custom_template_tab_frame,
text="客户模板结果显示",
)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已显示客户模板结果 Tab")
else:
if custom_tab_id in current_tabs:
self.chart_notebook.forget(self.custom_template_tab_frame)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 已隐藏客户模板结果 Tab")
# 刷新显示
self.chart_notebook.update_idletasks()
except Exception as e:
if hasattr(self, "log_gui"):
self.log_gui.log(f"切换 Gamma/EOTF Tab 失败: {str(e)}")
def update_sidebar_selection(self):
"""更新侧边栏按钮的选中状态"""
# 重置所有按钮样式为默认
self.screen_module_btn.configure(style="Sidebar.TButton")
self.sdr_movie_btn.configure(style="Sidebar.TButton")
self.hdr_movie_btn.configure(style="Sidebar.TButton")
# 设置当前选中按钮的样式
current_type = self.test_type_var.get()
if current_type == "screen_module":
self.screen_module_btn.configure(style="SidebarSelected.TButton")
elif current_type == "sdr_movie":
self.sdr_movie_btn.configure(style="SidebarSelected.TButton")
elif current_type == "hdr_movie":
self.hdr_movie_btn.configure(style="SidebarSelected.TButton")
def on_test_type_change(self):
"""根据测试类型更新内容区域"""
test_type = self.test_type_var.get()
# 获取当前测试类型的配置
if hasattr(self, "config") and hasattr(self.config, "get_current_config"):
current_config = self.config.get_current_config()
# 更新配置信息显示
self.update_config_info_display()
# SDR 选中时显示客户模版按钮
self.update_custom_button_visibility()
def update_custom_button_visibility(self):
"""只在 SDR 测试时显示客户模版按钮"""
if not hasattr(self, "custom_btn") or not hasattr(self, "test_type_var"):
return
if self.test_type_var.get() == "sdr_movie":
if not self.custom_btn.winfo_manager():
self.custom_btn.pack(side=tk.LEFT, padx=5)
else:
if self.custom_btn.winfo_manager():
self.custom_btn.pack_forget()
def start_test(self):
"""开始测试"""
# 检查设备连接状态
if self.ca is None or self.ucd is None:
messagebox.showerror("错误", "请先连接CA410和信号发生器")
return
# 检查是否已经在测试中
if self.testing:
messagebox.showinfo("提示", "测试已在进行中")
return
# ✅ 禁用并隐藏单步调试
if hasattr(self, "debug_panel"):
self.debug_panel.disable_all_debug()
self.log_gui.log("✓ 单步调试已禁用")
if hasattr(self, "debug_container"):
self.debug_container.pack_forget()
self.log_gui.log("✓ 单步调试面板已隐藏")
# 获取测试类型和测试项目
test_type = self.test_type_var.get()
test_items = self.get_selected_test_items()
if not test_items:
messagebox.showinfo("提示", "请至少选择一个测试项目")
return
# 自动收起配置项
if hasattr(self, "config_panel_frame"):
try:
if self.config_panel_frame.winfo_viewable():
self.config_panel_frame.btn.invoke()
self.root.update_idletasks()
time.sleep(0.2)
except:
pass
# 禁用配置项按钮
try:
self.config_panel_frame.btn.configure(state="disabled")
except:
pass
# ✅ 新增:禁用色域参考标准下拉框
try:
if hasattr(self, "screen_gamut_combo"):
self.screen_gamut_combo.configure(state="disabled")
if hasattr(self, "sdr_gamut_combo"):
self.sdr_gamut_combo.configure(state="disabled")
if hasattr(self, "hdr_gamut_combo"):
self.hdr_gamut_combo.configure(state="disabled")
except Exception as e:
self.log_gui.log(f"禁用色域参考标准失败: {str(e)}")
# 隐藏所有重新计算按钮
if hasattr(self, "recalc_cct_btn"):
try:
self.recalc_cct_btn.grid_remove()
except:
pass
if hasattr(self, "sdr_recalc_cct_btn"):
try:
self.sdr_recalc_cct_btn.grid_remove()
except:
pass
if hasattr(self, "hdr_recalc_cct_btn"):
try:
self.hdr_recalc_cct_btn.grid_remove()
except:
pass
# 更新UI状态
self.testing = True
self.start_btn.config(state=tk.DISABLED)
self.stop_btn.config(state=tk.NORMAL)
self.save_btn.config(state=tk.DISABLED)
self.clear_config_btn.config(state=tk.DISABLED)
self.status_var.set("测试进行中...")
# 清空日志和图表
self.log_gui.clear_log()
self.clear_chart()
# 根据测试类型显示不同提示
if test_type == "screen_module":
# 屏模组测试:提示 byPass All PQ
message = f"开始屏模组性能测试,请 byPass All PQ"
elif test_type == "sdr_movie":
# SDR测试提示设置正确图像模式
message = f"开始 SDR Movie 测试,请设置正确的图像模式"
elif test_type == "hdr_movie":
# HDR测试提示设置正确图像模式
message = f"开始 HDR Movie 测试,请设置正确的图像模式"
else:
message = f"开始{self.get_test_type_name(test_type)}测试"
confirm = messagebox.askyesno("确认测试", message)
if not confirm:
self.testing = False
self.start_btn.config(state=tk.NORMAL)
self.stop_btn.config(state=tk.DISABLED)
self.clear_config_btn.config(state=tk.NORMAL)
self.status_var.set("测试已取消")
# 恢复配置项按钮
if hasattr(self, "config_panel_frame"):
try:
self.config_panel_frame.btn.configure(state="normal")
except:
pass
return
# 在新线程中执行测试
self.test_thread = threading.Thread(
target=self.run_test, args=(test_type, test_items)
)
self.test_thread.daemon = True
self.test_thread.start()
def stop_test(self):
"""停止测试 - 放弃本次所有数据(完全集成版)"""
if not self.testing:
return
# ========== 1. 添加确认对话框 ==========
confirm = messagebox.askyesno(
"确认停止测试",
"测试正在进行中,确定要停止吗?\n\n⚠️ 停止后将放弃本次测试的所有数据,无法保存。",
icon="warning",
)
if not confirm:
self.log_gui.log("用户取消停止操作")
return
# ========== 2. 立即设置停止标志 ==========
self.testing = False # ← 关键:先设置标志,让测试线程停止
self.log_gui.log("=" * 50)
self.log_gui.log("⚠️ 正在停止测试...")
self.log_gui.log("=" * 50)
# ========== 3. 立即更新UI状态让用户感知到停止==========
self.stop_btn.config(state=tk.DISABLED)
self.status_var.set("正在停止测试,请稍候...")
self.root.update() # 立即刷新界面
# ========== 4. 等待测试线程结束 ==========
if self.test_thread and self.test_thread.is_alive():
self.log_gui.log("等待测试线程结束...")
# 等待最多5秒
for i in range(50): # 50 * 0.1秒 = 5秒
if not self.test_thread.is_alive():
break
time.sleep(0.1)
self.root.update() # 保持界面响应
if self.test_thread.is_alive():
self.log_gui.log("⚠️ 测试线程未能正常结束,将在后台继续等待")
else:
self.log_gui.log("✓ 测试线程已结束")
# ========== 5. 延迟1秒后执行清理使用内部函数==========
def cleanup_and_finish():
"""清理数据并完成停止操作"""
# ========== 5.1 清理测试数据 ==========
try:
self.log_gui.log("清理测试数据...")
# 清空测试结果对象
if hasattr(self, "results"):
self.results = None
self.log_gui.log(" ✓ 测试结果对象已清空")
# 清空中间数据缓存
for attr in [
"gamut_results",
"gamma_results",
"cct_results",
"contrast_results",
"accuracy_results",
]:
if hasattr(self, attr):
setattr(self, attr, None)
self.log_gui.log(" ✓ 所有中间数据已清空")
except Exception as e:
self.log_gui.log(f"⚠️ 清理数据时出错: {str(e)}")
# ========== 5.2 清空图表显示 ==========
try:
self.clear_chart()
self.log_gui.log("✓ 图表已清空")
except Exception as e:
self.log_gui.log(f"⚠️ 清空图表时出错: {str(e)}")
try:
self.clear_custom_template_results()
self.log_gui.log("✓ 客户模板结果表格已清空")
except Exception as e:
self.log_gui.log(f"⚠️ 清空客户模板结果表格失败: {str(e)}")
# ========== 5.2.5 跳转到色域图Tab第一个Tab==========
try:
if hasattr(self, "chart_notebook"):
self.chart_notebook.select(self.gamut_chart_frame)
self.root.update_idletasks() # ← 刷新界面
self.log_gui.log("✓ 已跳转到色域图界面")
except Exception as e:
self.log_gui.log(f"⚠️ 跳转到色域图失败: {str(e)}")
# ========== 5.3 更新UI状态 ==========
self.set_custom_result_table_locked(False)
self.start_btn.config(state=tk.NORMAL)
self.stop_btn.config(state=tk.DISABLED)
self.save_btn.config(state=tk.DISABLED)
self.clear_config_btn.config(state=tk.NORMAL)
if hasattr(self, "custom_btn"):
self.custom_btn.config(state=tk.NORMAL)
self.status_var.set("测试已停止 - 数据已清空")
self.log_gui.log("✓ UI状态已更新")
# ========== 5.4 恢复配置项按钮 ==========
if hasattr(self, "config_panel_frame"):
try:
self.config_panel_frame.btn.configure(state="normal")
self.log_gui.log("✓ 配置项已恢复")
except:
pass
# ========== 5.4.5 禁用色域参考标准下拉框 ==========
try:
if hasattr(self, "screen_gamut_combo"):
self.screen_gamut_combo.configure(state="disabled")
if hasattr(self, "sdr_gamut_combo"):
self.sdr_gamut_combo.configure(state="disabled")
if hasattr(self, "hdr_gamut_combo"):
self.hdr_gamut_combo.configure(state="disabled")
self.log_gui.log("✓ 色域参考标准已禁用")
except Exception as e:
self.log_gui.log(f"禁用色域参考标准失败: {str(e)}")
# ========== 5.5 隐藏所有重新计算按钮 ==========
try:
button_hidden_count = 0
for btn_attr in [
"recalc_cct_btn",
"sdr_recalc_cct_btn",
"hdr_recalc_cct_btn",
"recalc_gamut_btn", # ✅ 新增
"sdr_recalc_gamut_btn", # ✅ 新增
"hdr_recalc_gamut_btn", # ✅ 新增
]:
if hasattr(self, btn_attr):
try:
getattr(self, btn_attr).grid_remove()
button_hidden_count += 1
except:
pass
if button_hidden_count > 0:
self.log_gui.log(f"✓ 已隐藏 {button_hidden_count} 个重新计算按钮")
except Exception as e:
self.log_gui.log(f"⚠️ 隐藏按钮时出错: {str(e)}")
# ========== 5.6 禁用并隐藏单步调试 ==========
if hasattr(self, "debug_panel"):
try:
self.debug_panel.disable_all_debug()
self.log_gui.log("✓ 单步调试已禁用")
except Exception as e:
self.log_gui.log(f"⚠️ 禁用单步调试失败: {str(e)}")
# ✅ 隐藏调试面板
if hasattr(self, "debug_container"):
try:
self.debug_container.pack_forget()
self.log_gui.log("✓ 单步调试面板已隐藏")
except Exception as e:
self.log_gui.log(f"⚠️ 隐藏调试面板失败: {str(e)}")
# ========== 5.7 最终日志 ==========
self.log_gui.log("=" * 50)
self.log_gui.log("✓ 测试已停止,所有数据已清空")
self.log_gui.log("=" * 50)
# ========== 5.8 显示提示信息 ==========
messagebox.showinfo(
"测试已停止",
"测试已停止,本次测试数据已清空。\n\n可以重新开始新的测试。",
)
# ========== 延迟1秒后执行清理 ==========
self.root.after(1000, cleanup_and_finish)
def save_results(self):
"""保存测试结果(图片 + Excel"""
save_dir = filedialog.askdirectory(title="选择保存测试结果的目录")
if not save_dir:
return
try:
timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
test_type = self.get_test_type_name(self.test_type_var.get())
result_dir = os.path.join(save_dir, f"{test_type}_{timestamp}")
os.makedirs(result_dir, exist_ok=True)
# ========== ✅ 获取当前测试类型和已选测试项 ==========
current_test_type = self.test_type_var.get()
selected_items = self.get_selected_test_items()
self.log_gui.log(f"保存测试类型: {current_test_type}")
self.log_gui.log(f"已选测试项: {selected_items}")
# ========== 保存图片 ==========
if "gamut" in selected_items and hasattr(self, "gamut_fig"):
gamut_path = os.path.join(result_dir, "色域测试结果.png")
self.gamut_fig.savefig(gamut_path, dpi=300)
self.log_gui.log(f"✓ 已保存: 色域测试结果.png")
if current_test_type in ["screen_module", "sdr_movie"]:
if "gamma" in selected_items and hasattr(self, "gamma_fig"):
gamma_path = os.path.join(result_dir, "Gamma曲线测试结果.png")
self.gamma_fig.savefig(gamma_path, dpi=300)
self.log_gui.log(f"✓ 已保存: Gamma曲线测试结果.png")
if current_test_type == "hdr_movie":
if "eotf" in selected_items and hasattr(self, "eotf_fig"):
eotf_path = os.path.join(result_dir, "EOTF曲线测试结果.png")
self.eotf_fig.savefig(eotf_path, dpi=300)
self.log_gui.log(f"✓ 已保存: EOTF曲线测试结果.png")
if "cct" in selected_items and hasattr(self, "cct_fig"):
cct_path = os.path.join(result_dir, "色度一致性测试结果.png")
self.cct_fig.savefig(cct_path, dpi=300)
self.log_gui.log(f"✓ 已保存: 色度一致性测试结果.png")
if "contrast" in selected_items and hasattr(self, "contrast_fig"):
contrast_path = os.path.join(result_dir, "对比度测试结果.png")
self.contrast_fig.savefig(contrast_path, dpi=300, bbox_inches="tight")
self.log_gui.log(f"✓ 已保存: 对比度测试结果.png")
if current_test_type in ["sdr_movie", "hdr_movie"]:
if "accuracy" in selected_items and hasattr(self, "accuracy_fig"):
accuracy_path = os.path.join(result_dir, "色准测试结果.png")
self.accuracy_fig.savefig(accuracy_path, dpi=300)
self.log_gui.log(f"✓ 已保存: 色准测试结果.png")
# ========== ✅ 屏模组测试 Excel 导出 ==========
if (
current_test_type == "screen_module"
and hasattr(self, "results")
and self.results
):
try:
import openpyxl
from openpyxl.styles import (
Font,
Alignment,
PatternFill,
Border,
Side,
)
self.log_gui.log("=" * 60)
self.log_gui.log("开始生成屏模组 Excel 数据报告...")
wb = openpyxl.Workbook()
ws = wb.active
ws.title = "测试数据"
# ========== 样式定义 ==========
title_font = Font(
name="微软雅黑", size=16, bold=True, color="FFFFFF"
)
title_fill = PatternFill(
start_color="4472C4", end_color="4472C4", fill_type="solid"
)
title_alignment = Alignment(horizontal="center", vertical="center")
section_font = Font(
name="微软雅黑", size=13, bold=True, color="FFFFFF"
)
section_fill = PatternFill(
start_color="5B9BD5", end_color="5B9BD5", fill_type="solid"
)
section_alignment = Alignment(
horizontal="center", vertical="center"
)
header_font = Font(
name="微软雅黑", size=10, bold=True, color="FFFFFF"
)
header_fill = PatternFill(
start_color="70AD47", end_color="70AD47", fill_type="solid"
)
header_alignment = Alignment(
horizontal="center", vertical="center", wrap_text=True
)
data_font = Font(name="微软雅黑", size=10)
data_alignment = Alignment(horizontal="center", vertical="center")
label_font = Font(name="微软雅黑", size=10, bold=True)
thin_border = Border(
left=Side(style="thin"),
right=Side(style="thin"),
top=Side(style="thin"),
bottom=Side(style="thin"),
)
# ========== 总标题 ==========
ws.merge_cells("A1:G1")
ws["A1"] = "屏模组性能测试数据报告"
ws["A1"].font = title_font
ws["A1"].fill = title_fill
ws["A1"].alignment = title_alignment
ws.row_dimensions[1].height = 35
# ========== 测试基本信息 ==========
row = 3
ws.merge_cells(f"A{row}:B{row}")
ws[f"A{row}"] = "📋 测试基本信息"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
info_items = [
(
"测试时间",
datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
),
("测试类型", "屏模组"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
row += 1 # 空行
# ========== 1. 色域数据 ==========
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
gamut_final_result = None
if "gamut" in self.results.test_items:
gamut_final_result = self.results.test_items[
"gamut"
].final_result
if rgb_data and len(rgb_data) >= 3:
# 分区标题
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🎨 色域测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
if gamut_final_result:
# 第一行:参考标准
ws[f"A{row}"] = "参考标准"
ws[f"B{row}"] = gamut_final_result.get(
"reference", "DCI-P3"
)
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
# 第二行XY 覆盖率 | UV 覆盖率
xy_coverage = gamut_final_result.get("coverage", 0)
uv_coverage = (
gamut_final_result.get("uv_coverage", 0)
or gamut_final_result.get("uv_space_coverage", 0)
or gamut_final_result.get("coverage_uv", 0)
or 0
)
ws[f"A{row}"] = "XY 色域覆盖率"
ws[f"B{row}"] = f"{xy_coverage:.2f}%"
ws[f"C{row}"] = "UV 色域覆盖率"
ws[f"D{row}"] = f"{uv_coverage:.2f}%"
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"C{row}"].font = label_font
ws[f"D{row}"].font = data_font
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].border = thin_border
row += 1
# RGB 数据表格
headers = [
"点位",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
rgb_labels = ["Red", "Green", "Blue"]
for i, result in enumerate(rgb_data[:3]):
x, y, lv = result[0], result[1], result[2]
ws[f"A{row}"] = rgb_labels[i]
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"A{row}"].font = data_font
ws[f"A{row}"].alignment = data_alignment
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].number_format = "0.0000"
ws[f"B{row}"].font = data_font
ws[f"B{row}"].alignment = data_alignment
ws[f"B{row}"].border = thin_border
ws[f"C{row}"].number_format = "0.0000"
ws[f"C{row}"].font = data_font
ws[f"C{row}"].alignment = data_alignment
ws[f"C{row}"].border = thin_border
ws[f"D{row}"].number_format = "0.00"
ws[f"D{row}"].font = data_font
ws[f"D{row}"].alignment = data_alignment
ws[f"D{row}"].border = thin_border
row += 1
row += 1 # 空行
self.log_gui.log(" ✓ 添加色域数据")
# ========== 2. Gamma 数据 ==========
if "gamma" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"gamma", "gray"
)
gamma_final_result = None
if "gamma" in self.results.test_items:
gamma_final_result = self.results.test_items[
"gamma"
].final_result
if gray_data and len(gray_data) > 0 and gamma_final_result:
gamma_list = gamma_final_result.get("gamma", [])
L_bar_list = gamma_final_result.get("L_bar", [])
# 分区标题
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "📊 Gamma 曲线数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# Gamma 统计信息
valid_gamma = []
if gamma_list:
for item in gamma_list:
if (
isinstance(item, (list, tuple))
and len(item) >= 4
):
gamma_val = item[3]
if 0.5 < gamma_val < 5.0:
valid_gamma.append(gamma_val)
if valid_gamma:
avg_gamma = sum(valid_gamma) / len(valid_gamma)
max_gamma = max(valid_gamma)
min_gamma = min(valid_gamma)
ws[f"A{row}"] = "平均 Gamma"
ws[f"B{row}"] = f"{avg_gamma:.3f}"
ws[f"C{row}"] = "最大 Gamma"
ws[f"D{row}"] = f"{max_gamma:.3f}"
ws[f"E{row}"] = "最小 Gamma"
ws[f"F{row}"] = f"{min_gamma:.3f}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font
if col in ["A", "C", "E"]
else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# Gamma 数据表格
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"实测亮度\n(cd/m²)",
"归一化亮度\n(L_bar)",
"Gamma 值",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(total_points - 1, -1, -1):
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
x, y, lv = (
gray_data[i][0],
gray_data[i][1],
gray_data[i][2],
)
L_bar_val = L_bar_list[i] if i < len(L_bar_list) else 0
gamma_val = None
if (
i < len(gamma_list)
and isinstance(gamma_list[i], (list, tuple))
and len(gamma_list[i]) >= 4
):
gamma_val = gamma_list[i][3]
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"E{row}"] = L_bar_val
if gamma_val is not None and 0.5 < gamma_val < 5.0:
ws[f"F{row}"] = gamma_val
ws[f"F{row}"].number_format = "0.000"
else:
ws[f"F{row}"] = "N/A"
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
ws[f"E{row}"].number_format = "0.0000"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加 Gamma 数据")
# ========== 3. 色度一致性数据 ==========
if "cct" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"cct", "gray"
)
if gray_data and len(gray_data) > 1:
gray_data_no_black = gray_data[:-1]
# 分区标题
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🌈 色度一致性数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# 色度波动信息
x_coords = [d[0] for d in gray_data_no_black]
y_coords = [d[1] for d in gray_data_no_black]
ws[f"A{row}"] = "x 坐标范围"
ws[f"B{row}"] = f"{min(x_coords):.4f} ~ {max(x_coords):.4f}"
ws[f"C{row}"] = "y 坐标范围"
ws[f"D{row}"] = f"{min(y_coords):.4f} ~ {max(y_coords):.4f}"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# 数据表格
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(len(gray_data_no_black) - 1, -1, -1):
x, y, lv = (
gray_data_no_black[i][0],
gray_data_no_black[i][1],
gray_data_no_black[i][2],
)
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色度一致性数据")
# ========== 4. 对比度数据 ==========
if "contrast" in selected_items:
contrast_final_result = None
if "contrast" in self.results.test_items:
contrast_final_result = self.results.test_items[
"contrast"
].final_result
if contrast_final_result:
# 分区标题
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "⚫⚪ 对比度测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
max_lv = contrast_final_result.get("max_luminance", 0)
min_lv = contrast_final_result.get("min_luminance", 0)
contrast_ratio = contrast_final_result.get(
"contrast_ratio", 0
)
info_items = [
("最大亮度(白场)", f"{max_lv:.2f} cd/m²"),
("最小亮度(黑场)", f"{min_lv:.4f} cd/m²"),
("对比度", f"{contrast_ratio:.0f}:1"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
self.log_gui.log(" ✓ 添加对比度数据")
# ========== 调整列宽 ==========
ws.column_dimensions["A"].width = 18
ws.column_dimensions["B"].width = 18
ws.column_dimensions["C"].width = 18
ws.column_dimensions["D"].width = 18
ws.column_dimensions["E"].width = 18
ws.column_dimensions["F"].width = 15
ws.column_dimensions["G"].width = 15
# ========== 保存 Excel ==========
excel_path = os.path.join(result_dir, "测试数据.xlsx")
wb.save(excel_path)
self.log_gui.log(f"✓ 已保存: 测试数据.xlsx")
self.log_gui.log("=" * 60)
except ImportError:
self.log_gui.log("⚠️ 未安装 openpyxl 库,跳过 Excel 导出")
self.log_gui.log(" 安装方法: pip install openpyxl")
except Exception as e:
self.log_gui.log(f"⚠️ Excel 导出失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# ========== ✅ SDR Movie 测试 Excel 导出 ==========
elif (
current_test_type == "sdr_movie"
and hasattr(self, "results")
and self.results
):
try:
import openpyxl
from openpyxl.styles import (
Font,
Alignment,
PatternFill,
Border,
Side,
)
self.log_gui.log("=" * 60)
self.log_gui.log("开始生成 SDR Movie Excel 数据报告...")
wb = openpyxl.Workbook()
ws = wb.active
ws.title = "测试数据"
# ========== 样式定义 ==========
title_font = Font(
name="微软雅黑", size=16, bold=True, color="FFFFFF"
)
title_fill = PatternFill(
start_color="4472C4", end_color="4472C4", fill_type="solid"
)
title_alignment = Alignment(horizontal="center", vertical="center")
section_font = Font(
name="微软雅黑", size=13, bold=True, color="FFFFFF"
)
section_fill = PatternFill(
start_color="5B9BD5", end_color="5B9BD5", fill_type="solid"
)
section_alignment = Alignment(
horizontal="center", vertical="center"
)
header_font = Font(
name="微软雅黑", size=10, bold=True, color="FFFFFF"
)
header_fill = PatternFill(
start_color="70AD47", end_color="70AD47", fill_type="solid"
)
header_alignment = Alignment(
horizontal="center", vertical="center", wrap_text=True
)
data_font = Font(name="微软雅黑", size=10)
data_alignment = Alignment(horizontal="center", vertical="center")
label_font = Font(name="微软雅黑", size=10, bold=True)
thin_border = Border(
left=Side(style="thin"),
right=Side(style="thin"),
top=Side(style="thin"),
bottom=Side(style="thin"),
)
# ========== 总标题 ==========
ws.merge_cells("A1:G1")
ws["A1"] = "SDR Movie 性能测试数据报告"
ws["A1"].font = title_font
ws["A1"].fill = title_fill
ws["A1"].alignment = title_alignment
ws.row_dimensions[1].height = 35
# ========== 测试基本信息 ==========
row = 3
ws.merge_cells(f"A{row}:B{row}")
ws[f"A{row}"] = "📋 测试基本信息"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
info_items = [
(
"测试时间",
datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
),
("测试类型", "SDR Movie"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
row += 1 # 空行
# ========== 1. 色域数据 ==========
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
gamut_final_result = None
if "gamut" in self.results.test_items:
gamut_final_result = self.results.test_items[
"gamut"
].final_result
if rgb_data and len(rgb_data) >= 3:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🎨 色域测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
if gamut_final_result:
xy_coverage = gamut_final_result.get("coverage", 0)
uv_coverage = (
gamut_final_result.get("uv_coverage", 0)
or gamut_final_result.get("uv_space_coverage", 0)
or 0
)
ws[f"A{row}"] = "参考标准"
ws[f"B{row}"] = gamut_final_result.get(
"reference", "DCI-P3"
)
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
ws[f"A{row}"] = "XY 色域覆盖率"
ws[f"B{row}"] = f"{xy_coverage:.2f}%"
ws[f"C{row}"] = "UV 色域覆盖率"
ws[f"D{row}"] = f"{uv_coverage:.2f}%"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# RGB 数据表格
headers = [
"点位",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
rgb_labels = ["Red", "Green", "Blue"]
for i, result in enumerate(rgb_data[:3]):
x, y, lv = result[0], result[1], result[2]
ws[f"A{row}"] = rgb_labels[i]
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色域数据")
# ========== 2. Gamma 数据 ==========
if "gamma" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"gamma", "gray"
)
gamma_final_result = None
if "gamma" in self.results.test_items:
gamma_final_result = self.results.test_items[
"gamma"
].final_result
if gray_data and gamma_final_result:
gamma_list = gamma_final_result.get("gamma", [])
L_bar_list = gamma_final_result.get("L_bar", [])
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "📊 Gamma 曲线数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# Gamma 统计
valid_gamma = [
item[3]
for item in gamma_list
if isinstance(item, (list, tuple))
and len(item) >= 4
and 0.5 < item[3] < 5.0
]
if valid_gamma:
avg_gamma = sum(valid_gamma) / len(valid_gamma)
ws[f"A{row}"] = "平均 Gamma"
ws[f"B{row}"] = f"{avg_gamma:.3f}"
ws[f"C{row}"] = "最大 Gamma"
ws[f"D{row}"] = f"{max(valid_gamma):.3f}"
ws[f"E{row}"] = "最小 Gamma"
ws[f"F{row}"] = f"{min(valid_gamma):.3f}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font
if col in ["A", "C", "E"]
else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# Gamma 数据表格
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"实测亮度\n(cd/m²)",
"归一化亮度\n(L_bar)",
"Gamma 值",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(total_points - 1, -1, -1):
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
x, y, lv = (
gray_data[i][0],
gray_data[i][1],
gray_data[i][2],
)
L_bar_val = L_bar_list[i] if i < len(L_bar_list) else 0
gamma_val = None
if (
i < len(gamma_list)
and isinstance(gamma_list[i], (list, tuple))
and len(gamma_list[i]) >= 4
):
gamma_val = gamma_list[i][3]
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"E{row}"] = L_bar_val
if gamma_val is not None and 0.5 < gamma_val < 5.0:
ws[f"F{row}"] = gamma_val
ws[f"F{row}"].number_format = "0.000"
else:
ws[f"F{row}"] = "N/A"
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
ws[f"E{row}"].number_format = "0.0000"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加 Gamma 数据")
# ========== 3. 色度一致性数据 ==========
if "cct" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"cct", "gray"
)
if gray_data and len(gray_data) > 1:
gray_data_no_black = gray_data[:-1]
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🌈 色度一致性数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
x_coords = [d[0] for d in gray_data_no_black]
y_coords = [d[1] for d in gray_data_no_black]
ws[f"A{row}"] = "x 坐标范围"
ws[f"B{row}"] = f"{min(x_coords):.4f} ~ {max(x_coords):.4f}"
ws[f"C{row}"] = "y 坐标范围"
ws[f"D{row}"] = f"{min(y_coords):.4f} ~ {max(y_coords):.4f}"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(len(gray_data_no_black) - 1, -1, -1):
x, y, lv = (
gray_data_no_black[i][0],
gray_data_no_black[i][1],
gray_data_no_black[i][2],
)
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色度一致性数据")
# ========== 4. 对比度数据 ==========
if "contrast" in selected_items:
contrast_final_result = None
if "contrast" in self.results.test_items:
contrast_final_result = self.results.test_items[
"contrast"
].final_result
if contrast_final_result:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "⚫⚪ 对比度测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
max_lv = contrast_final_result.get("max_luminance", 0)
min_lv = contrast_final_result.get("min_luminance", 0)
contrast_ratio = contrast_final_result.get(
"contrast_ratio", 0
)
info_items = [
("最大亮度(白场)", f"{max_lv:.2f} cd/m²"),
("最小亮度(黑场)", f"{min_lv:.4f} cd/m²"),
("对比度", f"{contrast_ratio:.0f}:1"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加对比度数据")
# ========== 5. 色准数据SDR 特有)==========
if "accuracy" in selected_items:
accuracy_final_result = None
if "accuracy" in self.results.test_items:
accuracy_final_result = self.results.test_items[
"accuracy"
].final_result
if accuracy_final_result:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🎯 色准测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# 色准统计信息
avg_delta_e = accuracy_final_result.get("avg_delta_e", 0)
max_delta_e = accuracy_final_result.get("max_delta_e", 0)
min_delta_e = accuracy_final_result.get("min_delta_e", 0)
excellent_count = accuracy_final_result.get(
"excellent_count", 0
)
good_count = accuracy_final_result.get("good_count", 0)
poor_count = accuracy_final_result.get("poor_count", 0)
ws[f"A{row}"] = "平均 ΔE"
ws[f"B{row}"] = f"{avg_delta_e:.2f}"
ws[f"C{row}"] = "最大 ΔE"
ws[f"D{row}"] = f"{max_delta_e:.2f}"
ws[f"E{row}"] = "最小 ΔE"
ws[f"F{row}"] = f"{min_delta_e:.2f}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C", "E"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# 第二行统计
ws[f"A{row}"] = "优秀 (ΔE<3)"
ws[f"B{row}"] = f"{excellent_count}"
ws[f"C{row}"] = "良好 (3≤ΔE<5)"
ws[f"D{row}"] = f"{good_count}"
ws[f"E{row}"] = "偏差 (ΔE≥5)"
ws[f"F{row}"] = f"{poor_count}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C", "E"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# ========== 色准详细数据表格(带 xy 坐标和亮度)==========
color_patches = accuracy_final_result.get(
"color_patches", []
)
delta_e_values = accuracy_final_result.get(
"delta_e_values", []
)
# ✅ 获取原始测量数据(包含 xy 和亮度)
color_measurements = accuracy_final_result.get(
"color_measurements", []
)
if color_patches and delta_e_values:
# 表头
headers = [
"序号",
"颜色名称",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"ΔE 2000",
"等级",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
# 数据行
for idx, (color_name, delta_e) in enumerate(
zip(color_patches, delta_e_values), start=1
):
# 判断等级
if delta_e < 3:
grade = "优秀"
elif delta_e < 5:
grade = "良好"
else:
grade = "偏差"
# ✅ 获取测量数据x, y, 亮度)
x_val = "N/A"
y_val = "N/A"
lv_val = "N/A"
if color_measurements and idx - 1 < len(
color_measurements
):
measurement = color_measurements[idx - 1]
if len(measurement) >= 3:
x_val = measurement[0]
y_val = measurement[1]
lv_val = measurement[2]
ws[f"A{row}"] = idx
ws[f"B{row}"] = color_name
ws[f"C{row}"] = x_val
ws[f"D{row}"] = y_val
ws[f"E{row}"] = lv_val
ws[f"F{row}"] = delta_e
ws[f"G{row}"] = grade
# 数字格式
ws[f"A{row}"].number_format = "0"
if isinstance(x_val, (int, float)):
ws[f"C{row}"].number_format = "0.0000"
if isinstance(y_val, (int, float)):
ws[f"D{row}"].number_format = "0.0000"
if isinstance(lv_val, (int, float)):
ws[f"E{row}"].number_format = "0.00"
ws[f"F{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D", "E", "F", "G"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色准数据(含 xy 坐标和亮度)")
# ========== 调整列宽 ==========
for col in ["A", "B", "C", "D", "E", "F", "G"]:
ws.column_dimensions[col].width = 18
# ========== 保存 Excel ==========
excel_path = os.path.join(result_dir, "测试数据.xlsx")
wb.save(excel_path)
self.log_gui.log(f"✓ 已保存: 测试数据.xlsx")
self.log_gui.log("=" * 60)
except ImportError:
self.log_gui.log("⚠️ 未安装 openpyxl 库,跳过 Excel 导出")
except Exception as e:
self.log_gui.log(f"⚠️ Excel 导出失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# ========== ✅ HDR Movie 测试 Excel 导出 ==========
elif (
current_test_type == "hdr_movie"
and hasattr(self, "results")
and self.results
):
try:
import openpyxl
from openpyxl.styles import (
Font,
Alignment,
PatternFill,
Border,
Side,
)
self.log_gui.log("=" * 60)
self.log_gui.log("开始生成 HDR Movie Excel 数据报告...")
wb = openpyxl.Workbook()
ws = wb.active
ws.title = "测试数据"
# ========== 样式定义 ==========
title_font = Font(
name="微软雅黑", size=16, bold=True, color="FFFFFF"
)
title_fill = PatternFill(
start_color="4472C4", end_color="4472C4", fill_type="solid"
)
title_alignment = Alignment(horizontal="center", vertical="center")
section_font = Font(
name="微软雅黑", size=13, bold=True, color="FFFFFF"
)
section_fill = PatternFill(
start_color="5B9BD5", end_color="5B9BD5", fill_type="solid"
)
section_alignment = Alignment(
horizontal="center", vertical="center"
)
header_font = Font(
name="微软雅黑", size=10, bold=True, color="FFFFFF"
)
header_fill = PatternFill(
start_color="70AD47", end_color="70AD47", fill_type="solid"
)
header_alignment = Alignment(
horizontal="center", vertical="center", wrap_text=True
)
data_font = Font(name="微软雅黑", size=10)
data_alignment = Alignment(horizontal="center", vertical="center")
label_font = Font(name="微软雅黑", size=10, bold=True)
thin_border = Border(
left=Side(style="thin"),
right=Side(style="thin"),
top=Side(style="thin"),
bottom=Side(style="thin"),
)
# ========== 总标题 ==========
ws.merge_cells("A1:G1")
ws["A1"] = "HDR Movie 性能测试数据报告"
ws["A1"].font = title_font
ws["A1"].fill = title_fill
ws["A1"].alignment = title_alignment
ws.row_dimensions[1].height = 35
# ========== 测试基本信息 ==========
row = 3
ws.merge_cells(f"A{row}:B{row}")
ws[f"A{row}"] = "📋 测试基本信息"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
info_items = [
(
"测试时间",
datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
),
("测试类型", "HDR Movie"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
row += 1
# ========== 1. 色域数据 ==========
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
gamut_final_result = None
if "gamut" in self.results.test_items:
gamut_final_result = self.results.test_items[
"gamut"
].final_result
if rgb_data and len(rgb_data) >= 3:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🎨 色域测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
if gamut_final_result:
xy_coverage = gamut_final_result.get("coverage", 0)
uv_coverage = (
gamut_final_result.get("uv_coverage", 0)
or gamut_final_result.get("uv_space_coverage", 0)
or 0
)
ws[f"A{row}"] = "参考标准"
ws[f"B{row}"] = gamut_final_result.get(
"reference", "DCI-P3"
)
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
ws[f"A{row}"] = "XY 色域覆盖率"
ws[f"B{row}"] = f"{xy_coverage:.2f}%"
ws[f"C{row}"] = "UV 色域覆盖率"
ws[f"D{row}"] = f"{uv_coverage:.2f}%"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# RGB 数据表格
headers = [
"点位",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
rgb_labels = ["Red", "Green", "Blue"]
for i, result in enumerate(rgb_data[:3]):
x, y, lv = result[0], result[1], result[2]
ws[f"A{row}"] = rgb_labels[i]
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色域数据")
# ========== 2. EOTF 数据HDR 特有)==========
if "eotf" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"eotf", "gray"
)
eotf_final_result = None
if "eotf" in self.results.test_items:
eotf_final_result = self.results.test_items[
"eotf"
].final_result
if gray_data and len(gray_data) > 0 and eotf_final_result:
eotf_list = eotf_final_result.get("eotf", [])
L_bar_list = eotf_final_result.get("L_bar", [])
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "📊 EOTF 曲线数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# ✅ EOTF 统计信息(类似 Gamma 统计)
valid_eotf = []
if eotf_list:
for item in eotf_list:
if (
isinstance(item, (list, tuple))
and len(item) >= 4
):
eotf_val = item[3]
if 0.5 < eotf_val < 5.0:
valid_eotf.append(eotf_val)
if valid_eotf:
avg_eotf = sum(valid_eotf) / len(valid_eotf)
max_eotf = max(valid_eotf)
min_eotf = min(valid_eotf)
ws[f"A{row}"] = "平均 EOTF"
ws[f"B{row}"] = f"{avg_eotf:.3f}"
ws[f"C{row}"] = "最大 EOTF"
ws[f"D{row}"] = f"{max_eotf:.3f}"
ws[f"E{row}"] = "最小 EOTF"
ws[f"F{row}"] = f"{min_eotf:.3f}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font
if col in ["A", "C", "E"]
else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# ✅ EOTF 数据表格(与 Gamma 表格完全一致)
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"实测亮度\n(cd/m²)",
"归一化亮度\n(L_bar)",
"EOTF 值",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(total_points - 1, -1, -1):
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
x, y, lv = (
gray_data[i][0],
gray_data[i][1],
gray_data[i][2],
)
L_bar_val = L_bar_list[i] if i < len(L_bar_list) else 0
eotf_val = None
if (
i < len(eotf_list)
and isinstance(eotf_list[i], (list, tuple))
and len(eotf_list[i]) >= 4
):
eotf_val = eotf_list[i][3]
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"E{row}"] = L_bar_val
if eotf_val is not None and 0.5 < eotf_val < 5.0:
ws[f"F{row}"] = eotf_val
ws[f"F{row}"].number_format = "0.000"
else:
ws[f"F{row}"] = "N/A"
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
ws[f"E{row}"].number_format = "0.0000"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加 EOTF 数据")
# ========== 3. 色度一致性数据 ==========
if "cct" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
gray_data = self.results.get_intermediate_data(
"cct", "gray"
)
if gray_data and len(gray_data) > 1:
gray_data_no_black = gray_data[:-1]
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🌈 色度一致性数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
x_coords = [d[0] for d in gray_data_no_black]
y_coords = [d[1] for d in gray_data_no_black]
ws[f"A{row}"] = "x 坐标范围"
ws[f"B{row}"] = f"{min(x_coords):.4f} ~ {max(x_coords):.4f}"
ws[f"C{row}"] = "y 坐标范围"
ws[f"D{row}"] = f"{min(y_coords):.4f} ~ {max(y_coords):.4f}"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
headers = [
"灰阶 (%)",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"",
"",
"",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
total_points = len(gray_data)
for i in range(len(gray_data_no_black) - 1, -1, -1):
x, y, lv = (
gray_data_no_black[i][0],
gray_data_no_black[i][1],
gray_data_no_black[i][2],
)
gray_level = (
100 - int(i * 100 / (total_points - 1))
if total_points > 1
else 0
)
ws[f"A{row}"] = gray_level
ws[f"B{row}"] = x
ws[f"C{row}"] = y
ws[f"D{row}"] = lv
ws[f"A{row}"].number_format = "0"
ws[f"B{row}"].number_format = "0.0000"
ws[f"C{row}"].number_format = "0.0000"
ws[f"D{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色度一致性数据")
# ========== 4. 对比度数据 ==========
if "contrast" in selected_items:
contrast_final_result = None
if "contrast" in self.results.test_items:
contrast_final_result = self.results.test_items[
"contrast"
].final_result
if contrast_final_result:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "⚫⚪ 对比度测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
max_lv = contrast_final_result.get("max_luminance", 0)
min_lv = contrast_final_result.get("min_luminance", 0)
contrast_ratio = contrast_final_result.get(
"contrast_ratio", 0
)
info_items = [
("最大亮度(白场)", f"{max_lv:.2f} cd/m²"),
("最小亮度(黑场)", f"{min_lv:.4f} cd/m²"),
("对比度", f"{contrast_ratio:.0f}:1"),
]
for label, value in info_items:
ws[f"A{row}"] = label
ws[f"B{row}"] = value
ws[f"A{row}"].font = label_font
ws[f"B{row}"].font = data_font
ws[f"A{row}"].border = thin_border
ws[f"B{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加对比度数据")
# ========== 5. 色准数据HDR 特有)==========
if "accuracy" in selected_items:
accuracy_final_result = None
if "accuracy" in self.results.test_items:
accuracy_final_result = self.results.test_items[
"accuracy"
].final_result
if accuracy_final_result:
ws.merge_cells(f"A{row}:G{row}")
ws[f"A{row}"] = "🎯 色准测试数据"
ws[f"A{row}"].font = section_font
ws[f"A{row}"].fill = section_fill
ws[f"A{row}"].alignment = section_alignment
ws.row_dimensions[row].height = 25
row += 1
# 色准统计信息
avg_delta_e = accuracy_final_result.get("avg_delta_e", 0)
max_delta_e = accuracy_final_result.get("max_delta_e", 0)
min_delta_e = accuracy_final_result.get("min_delta_e", 0)
excellent_count = accuracy_final_result.get(
"excellent_count", 0
)
good_count = accuracy_final_result.get("good_count", 0)
poor_count = accuracy_final_result.get("poor_count", 0)
ws[f"A{row}"] = "平均 ΔE"
ws[f"B{row}"] = f"{avg_delta_e:.2f}"
ws[f"C{row}"] = "最大 ΔE"
ws[f"D{row}"] = f"{max_delta_e:.2f}"
ws[f"E{row}"] = "最小 ΔE"
ws[f"F{row}"] = f"{min_delta_e:.2f}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C", "E"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# 第二行统计
ws[f"A{row}"] = "优秀 (ΔE<3)"
ws[f"B{row}"] = f"{excellent_count}"
ws[f"C{row}"] = "良好 (3≤ΔE<5)"
ws[f"D{row}"] = f"{good_count}"
ws[f"E{row}"] = "偏差 (ΔE≥5)"
ws[f"F{row}"] = f"{poor_count}"
for col in ["A", "B", "C", "D", "E", "F"]:
ws[f"{col}{row}"].font = (
label_font if col in ["A", "C", "E"] else data_font
)
ws[f"{col}{row}"].border = thin_border
row += 1
# ========== 色准详细数据表格(带 xy 坐标和亮度)==========
color_patches = accuracy_final_result.get(
"color_patches", []
)
delta_e_values = accuracy_final_result.get(
"delta_e_values", []
)
# ✅ 获取原始测量数据(包含 xy 和亮度)
color_measurements = accuracy_final_result.get(
"color_measurements", []
)
if color_patches and delta_e_values:
# 表头
headers = [
"序号",
"颜色名称",
"x 坐标",
"y 坐标",
"亮度 (cd/m²)",
"ΔE 2000",
"等级",
]
for col_idx, header in enumerate(headers, start=1):
cell = ws.cell(row=row, column=col_idx)
cell.value = header
cell.font = header_font
cell.fill = header_fill
cell.alignment = header_alignment
cell.border = thin_border
row += 1
# 数据行
for idx, (color_name, delta_e) in enumerate(
zip(color_patches, delta_e_values), start=1
):
# 判断等级
if delta_e < 3:
grade = "优秀"
elif delta_e < 5:
grade = "良好"
else:
grade = "偏差"
# ✅ 获取测量数据x, y, 亮度)
x_val = "N/A"
y_val = "N/A"
lv_val = "N/A"
if color_measurements and idx - 1 < len(
color_measurements
):
measurement = color_measurements[idx - 1]
if len(measurement) >= 3:
x_val = measurement[0]
y_val = measurement[1]
lv_val = measurement[2]
ws[f"A{row}"] = idx
ws[f"B{row}"] = color_name
ws[f"C{row}"] = x_val
ws[f"D{row}"] = y_val
ws[f"E{row}"] = lv_val
ws[f"F{row}"] = delta_e
ws[f"G{row}"] = grade
# 数字格式
ws[f"A{row}"].number_format = "0"
if isinstance(x_val, (int, float)):
ws[f"C{row}"].number_format = "0.0000"
if isinstance(y_val, (int, float)):
ws[f"D{row}"].number_format = "0.0000"
if isinstance(lv_val, (int, float)):
ws[f"E{row}"].number_format = "0.00"
ws[f"F{row}"].number_format = "0.00"
for col in ["A", "B", "C", "D", "E", "F", "G"]:
ws[f"{col}{row}"].font = data_font
ws[f"{col}{row}"].alignment = data_alignment
ws[f"{col}{row}"].border = thin_border
row += 1
row += 1
self.log_gui.log(" ✓ 添加色准数据(含 xy 坐标和亮度)")
# ========== 调整列宽 ==========
for col in ["A", "B", "C", "D", "E", "F", "G"]:
ws.column_dimensions[col].width = 18
# ========== 保存 Excel ==========
excel_path = os.path.join(result_dir, "测试数据.xlsx")
wb.save(excel_path)
self.log_gui.log(f"✓ 已保存: 测试数据.xlsx")
self.log_gui.log("=" * 60)
except ImportError:
self.log_gui.log("⚠️ 未安装 openpyxl 库,跳过 Excel 导出")
except Exception as e:
self.log_gui.log(f"⚠️ Excel 导出失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# ========== ✅ 统一的成功提示(在所有 Excel 代码之后)==========
self.log_gui.log(f"=" * 50)
self.log_gui.log(f"✅ 测试结果已保存到目录: {result_dir}")
self.log_gui.log(f"=" * 50)
messagebox.showinfo("成功", f"测试结果已保存到目录:\n{result_dir}")
except Exception as e:
self.log_gui.log(f"❌ 保存测试结果失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
messagebox.showerror("错误", f"保存测试结果失败: {str(e)}")
new_pq_results = _run_new_pq_results
run_test = _run_run_test
run_screen_module_test = _run_run_screen_module_test
run_custom_sdr_test = _run_run_custom_sdr_test
run_sdr_movie_test = _run_run_sdr_movie_test
run_hdr_movie_test = _run_run_hdr_movie_test
send_fix_pattern = _run_send_fix_pattern
test_custom_sdr = _run_test_custom_sdr
test_gamut = _run_test_gamut
test_gamma = _run_test_gamma
test_eotf = _run_test_eotf
test_cct = _run_test_cct
test_contrast = _run_test_contrast
calculate_delta_e_2000 = staticmethod(_calc_delta_e_2000)
test_color_accuracy = _run_test_color_accuracy
get_accuracy_color_standards = staticmethod(_get_accuracy_color_standards)
calculate_gamut_coverage = staticmethod(_calc_gamut_coverage)
calculate_gamma = staticmethod(_calc_gamma)
calculate_color_accuracy = staticmethod(_calc_color_accuracy)
plot_gamut = _plot_gamut
plot_gamma = _plot_gamma
plot_eotf = _plot_eotf
calculate_pq_curve = staticmethod(_calc_pq_curve)
plot_cct = _plot_cct
plot_contrast = _plot_contrast
plot_accuracy = _plot_accuracy
on_test_completed = _run_on_test_completed
on_custom_template_test_completed = _run_on_custom_template_test_completed
get_current_test_result = _run_get_current_test_result
on_test_error = _run_on_test_error
def get_test_type_name(self, test_type):
"""获取测试类型的显示名称"""
if test_type == "screen_module":
return "屏模组性能测试"
elif test_type == "sdr_movie":
return "SDR Movie测试"
elif test_type == "hdr_movie":
return "HDR Movie测试"
return test_type
def get_selected_test_items(self):
"""获取当前选中的测试项"""
selected_items = []
for var_name, var in self.test_vars.items():
if var.get():
selected_items.append(var_name.split("_")[-1])
return selected_items
def update_config(self, event=None):
"""更新配置"""
try:
self.config.set_device_config(
self.ca_com_var.get(),
self.ucd_list_var.get(),
self.ca_channel_var.get(),
)
# 保存当前选中的测试项到配置
self.config.set_current_test_items(self.get_selected_test_items())
# 待修改为三种测试类型的timing值
self.config.set_current_timing(self.screen_module_timing_var.get())
# 自动保存配置到文件
self.save_pq_config()
except Exception as e:
self.log_gui.log(f"更新配置失败: {str(e)}")
def update_config_and_tabs(self):
"""更新配置并同步Tab状态"""
self.update_config()
self.update_chart_tabs_state()
# 根据当前测试类型保存对应参数
current_test_type = self.config.current_test_type
selected_items = self.get_selected_test_items()
if current_test_type == "screen_module":
if "cct" in selected_items:
self.save_cct_params()
elif current_test_type == "sdr_movie":
if "cct" in selected_items:
self.save_sdr_cct_params()
elif current_test_type == "hdr_movie":
if "cct" in selected_items:
if hasattr(self, "save_hdr_cct_params"):
self.save_hdr_cct_params()
# 控制参数框的显示
self.toggle_cct_params_frame()
def toggle_cct_params_frame(self):
"""根据测试类型和测试项的选中状态显示对应参数框"""
selected_items = self.get_selected_test_items()
current_test_type = self.config.current_test_type
# ========== 默认隐藏所有参数框 ==========
self.cct_params_frame.pack_forget()
self.sdr_cct_params_frame.pack_forget()
# HDR 色度参数框(如果存在的话)
if hasattr(self, "hdr_cct_params_frame"):
self.hdr_cct_params_frame.pack_forget()
# ========== 根据测试类型和选中项显示对应参数框 ==========
if current_test_type == "screen_module":
# 屏模组:只有色度参数
if "cct" in selected_items:
self.cct_params_frame.pack(fill=tk.X, padx=5, pady=5)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 显示屏模组色度参数设置")
elif current_test_type == "sdr_movie":
# SDR只有色度参数色准不需要参数设置框
if "cct" in selected_items:
self.sdr_cct_params_frame.pack(fill=tk.X, padx=5, pady=5)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 显示 SDR 色度参数设置")
elif current_test_type == "hdr_movie":
# HDR只有色度参数色准不需要参数设置框
if "cct" in selected_items:
if hasattr(self, "hdr_cct_params_frame"):
self.hdr_cct_params_frame.pack(fill=tk.X, padx=5, pady=5)
if hasattr(self, "log_gui"):
self.log_gui.log("✓ 显示 HDR 色度参数设置")
else:
if hasattr(self, "log_gui"):
self.log_gui.log("⚠️ HDR 色度参数框尚未创建")
def on_screen_module_timing_changed(self, event=None):
"""屏模组信号格式改变时的回调"""
try:
selected_timing = self.screen_module_timing_var.get()
# 记录日志
self.log_gui.log(f"屏模组信号格式已更改为: {selected_timing}")
# 解析分辨率和刷新率
import re
match = re.search(r"(\d+)x(\d+)\s*@\s*(\d+)", selected_timing)
if match:
width = int(match.group(1))
height = int(match.group(2))
refresh_rate = int(match.group(3))
self.log_gui.log(f" ├─ 分辨率: {width}x{height}")
self.log_gui.log(f" └─ 刷新率: {refresh_rate}Hz")
# 根据分辨率给出提示
if width >= 3840: # 4K及以上
self.log_gui.log(" 检测到4K分辨率")
if refresh_rate >= 120:
self.log_gui.log(" 检测到高刷新率")
# 更新配置
self.config.set_current_timing(selected_timing)
# 如果正在测试,提示用户
if self.testing:
self.log_gui.log("⚠️ 警告: 测试进行中,信号格式更改将在下次测试时生效")
# 保存配置
self.save_pq_config()
except Exception as e:
self.log_gui.log(f"❌ 屏模组信号格式更改失败: {str(e)}")
load_pq_config = _cfg_load_pq_config
save_pq_config = _cfg_save_pq_config
def on_closing(self):
"""窗口关闭时的处理"""
try:
# ✅ 检查是否清理了配置
if not self.config_cleared:
# 保存配置
self.save_pq_config()
else:
print("配置已清理,不再保存")
# 断开设备连接
if self.ucd.status:
self.ucd.close()
if self.ca is not None:
self.ca.close()
# 关闭窗口
self.root.destroy()
except Exception as e:
print(f"关闭窗口时出错: {str(e)}")
self.root.destroy()
def on_screen_gamut_ref_changed(self, event=None):
"""屏模组色域参考标准改变时的回调"""
try:
new_ref = self.screen_gamut_ref_var.get()
self.log_gui.log(f"✓ 屏模组色域参考标准已更改为: {new_ref}")
# 保存到配置
if "screen_module" not in self.config.current_test_types:
self.config.current_test_types["screen_module"] = {}
self.config.current_test_types["screen_module"]["gamut_reference"] = new_ref
self.save_pq_config()
except Exception as e:
self.log_gui.log(f"保存屏模组色域参考标准失败: {str(e)}")
def on_sdr_gamut_ref_changed(self, event=None):
"""SDR 色域参考标准改变时的回调"""
try:
new_ref = self.sdr_gamut_ref_var.get()
self.log_gui.log(f"✓ SDR 色域参考标准已更改为: {new_ref}")
# 保存到配置
if "sdr_movie" not in self.config.current_test_types:
self.config.current_test_types["sdr_movie"] = {}
self.config.current_test_types["sdr_movie"]["gamut_reference"] = new_ref
self.save_pq_config()
except Exception as e:
self.log_gui.log(f"保存 SDR 色域参考标准失败: {str(e)}")
def on_hdr_gamut_ref_changed(self, event=None):
"""HDR 色域参考标准改变时的回调"""
try:
new_ref = self.hdr_gamut_ref_var.get()
self.log_gui.log(f"✓ HDR 色域参考标准已更改为: {new_ref}")
# 保存到配置
if "hdr_movie" not in self.config.current_test_types:
self.config.current_test_types["hdr_movie"] = {}
self.config.current_test_types["hdr_movie"]["gamut_reference"] = new_ref
self.save_pq_config()
except Exception as e:
self.log_gui.log(f"保存 HDR 色域参考标准失败: {str(e)}")
def toggle_screen_debug_panel(self):
"""打开/关闭屏模组单步调试面板(独立窗口)"""
# 如果窗口已存在且可见,关闭它
if hasattr(self, "debug_window") and self.debug_window.winfo_exists():
self.debug_window.destroy()
self.screen_debug_btn.config(text="打开调试面板")
self.log_gui.log("✓ 单步调试面板已关闭")
return
# 创建新窗口
self.debug_window = ttk.Toplevel(self.root)
self.debug_window.title("🔧 单步调试面板")
self.debug_window.geometry("900x400")
self.debug_window.transient(self.root)
# 创建调试面板容器
debug_container = ttk.Frame(self.debug_window, padding=10)
debug_container.pack(fill=tk.BOTH, expand=True) # ← 这个 pack 是对的
# 创建调试面板实例
debug_panel_instance = PQDebugPanel(debug_container, self)
# ← 这里不应该有任何 pack 调用!
self.log_gui.log("✓ 单步调试面板实例已创建")
# 重新启用调试(如果有数据)
try:
test_type = self.config.current_test_type
selected_items = self.get_selected_test_items()
if test_type == "screen_module":
if "gamma" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if gray_data:
self.log_gui.log(f" → 加载 {len(gray_data)} 个灰阶数据点")
debug_panel_instance.enable_debug(
"screen_module", "gamma", gray_data
)
self.log_gui.log("✓ 屏模组 Gamma 单步调试已重新启用")
else:
self.log_gui.log(" ✗ 没有可用的灰阶数据")
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
if rgb_data:
self.log_gui.log(f" → 加载 {len(rgb_data)} 个RGB数据点")
debug_panel_instance.enable_debug(
"screen_module", "rgb", rgb_data
)
self.log_gui.log("✓ 屏模组 RGB 单步调试已重新启用")
except Exception as e:
self.log_gui.log(f"⚠️ 加载调试数据失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# 更新按钮文字
self.screen_debug_btn.config(text="关闭调试面板")
# 窗口关闭时的回调
def on_closing():
self.screen_debug_btn.config(text="打开调试面板")
self.debug_window.destroy()
self.log_gui.log("✓ 单步调试窗口已关闭")
self.debug_window.protocol("WM_DELETE_WINDOW", on_closing)
self.debug_window.update_idletasks()
self.log_gui.log("✓ 单步调试面板已打开(独立窗口)")
def toggle_sdr_debug_panel(self):
"""打开/关闭 SDR 单步调试面板(独立窗口)"""
# 如果窗口已存在且可见,关闭它
if hasattr(self, "sdr_debug_window") and self.sdr_debug_window.winfo_exists():
self.sdr_debug_window.destroy()
self.sdr_debug_btn.config(text="打开调试面板")
self.log_gui.log("✓ SDR 单步调试面板已关闭")
return
# 创建新窗口
self.sdr_debug_window = ttk.Toplevel(self.root)
self.sdr_debug_window.title("🔧 SDR 单步调试面板")
self.sdr_debug_window.geometry("900x400")
self.sdr_debug_window.transient(self.root)
# 创建调试面板容器
debug_container = ttk.Frame(self.sdr_debug_window, padding=10)
debug_container.pack(fill=tk.BOTH, expand=True)
# ✅ 创建调试面板实例(不要对它调用 pack
debug_panel_instance = PQDebugPanel(debug_container, self)
# ← 删除debug_panel_instance.pack(...)
self.log_gui.log("✓ SDR 单步调试面板实例已创建")
# ✅ 重新启用调试(如果有数据)
try:
selected_items = self.get_selected_test_items()
if "gamma" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if gray_data:
self.log_gui.log(f" → 加载 {len(gray_data)} 个灰阶数据点")
debug_panel_instance.enable_debug("sdr_movie", "gamma", gray_data)
self.log_gui.log("✓ SDR Gamma 单步调试已重新启用")
if "accuracy" in selected_items:
accuracy_data = self.results.get_intermediate_data(
"accuracy", "measured"
)
if accuracy_data:
self.log_gui.log(f" → 加载 {len(accuracy_data)} 个色准数据点")
debug_panel_instance.enable_debug(
"sdr_movie", "accuracy", accuracy_data
)
self.log_gui.log("✓ SDR 色准单步调试已重新启用")
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
if rgb_data:
self.log_gui.log(f" → 加载 {len(rgb_data)} 个RGB数据点")
debug_panel_instance.enable_debug("sdr_movie", "rgb", rgb_data)
self.log_gui.log("✓ SDR RGB 单步调试已重新启用")
except Exception as e:
self.log_gui.log(f"⚠️ 加载 SDR 调试数据失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# 更新按钮文字
self.sdr_debug_btn.config(text="关闭调试面板")
# 窗口关闭时的回调
def on_closing():
self.sdr_debug_btn.config(text="打开调试面板")
self.sdr_debug_window.destroy()
self.log_gui.log("✓ SDR 单步调试窗口已关闭")
self.sdr_debug_window.protocol("WM_DELETE_WINDOW", on_closing)
self.sdr_debug_window.update_idletasks()
self.log_gui.log("✓ SDR 单步调试面板已打开(独立窗口)")
def toggle_hdr_debug_panel(self):
"""打开/关闭 HDR 单步调试面板(独立窗口)"""
# 如果窗口已存在且可见,关闭它
if hasattr(self, "hdr_debug_window") and self.hdr_debug_window.winfo_exists():
self.hdr_debug_window.destroy()
self.hdr_debug_btn.config(text="打开调试面板")
self.log_gui.log("✓ HDR 单步调试面板已关闭")
return
# 创建新窗口
self.hdr_debug_window = ttk.Toplevel(self.root)
self.hdr_debug_window.title("🔧 HDR 单步调试面板")
self.hdr_debug_window.geometry("900x400")
self.hdr_debug_window.transient(self.root)
# 创建调试面板容器
debug_container = ttk.Frame(self.hdr_debug_window, padding=10)
debug_container.pack(fill=tk.BOTH, expand=True)
# ✅ 创建调试面板实例(不要对它调用 pack
debug_panel_instance = PQDebugPanel(debug_container, self)
# ← 删除debug_panel_instance.pack(...)
self.log_gui.log("✓ HDR 单步调试面板实例已创建")
# ✅ 重新启用调试(如果有数据)
try:
selected_items = self.get_selected_test_items()
if "eotf" in selected_items:
gray_data = self.results.get_intermediate_data("shared", "gray")
if gray_data:
self.log_gui.log(f" → 加载 {len(gray_data)} 个灰阶数据点")
debug_panel_instance.enable_debug("hdr_movie", "eotf", gray_data)
self.log_gui.log("✓ HDR EOTF 单步调试已重新启用")
if "accuracy" in selected_items:
accuracy_data = self.results.get_intermediate_data(
"accuracy", "measured"
)
if accuracy_data:
self.log_gui.log(f" → 加载 {len(accuracy_data)} 个色准数据点")
debug_panel_instance.enable_debug(
"hdr_movie", "accuracy", accuracy_data
)
self.log_gui.log("✓ HDR 色准单步调试已重新启用")
if "gamut" in selected_items:
rgb_data = self.results.get_intermediate_data("gamut", "rgb")
if rgb_data:
self.log_gui.log(f" → 加载 {len(rgb_data)} 个RGB数据点")
debug_panel_instance.enable_debug("hdr_movie", "rgb", rgb_data)
self.log_gui.log("✓ HDR RGB 单步调试已重新启用")
except Exception as e:
self.log_gui.log(f"⚠️ 加载 HDR 调试数据失败: {str(e)}")
import traceback
self.log_gui.log(traceback.format_exc())
# 更新按钮文字
self.hdr_debug_btn.config(text="关闭调试面板")
# 窗口关闭时的回调
def on_closing():
self.hdr_debug_btn.config(text="打开调试面板")
self.hdr_debug_window.destroy()
self.log_gui.log("✓ HDR 单步调试窗口已关闭")
self.hdr_debug_window.protocol("WM_DELETE_WINDOW", on_closing)
self.hdr_debug_window.update_idletasks()
self.log_gui.log("✓ HDR 单步调试面板已打开(独立窗口)")
clear_config_file = _cfg_clear_config_file
start_local_dimming_test = _ld_start_local_dimming_test
update_ld_results = _ld_update_ld_results
stop_local_dimming_test = _ld_stop_local_dimming_test
send_ld_window = _ld_send_ld_window
measure_ld_luminance = _ld_measure_ld_luminance
clear_ld_records = _ld_clear_ld_records
save_local_dimming_results = _ld_save_local_dimming_results
def main():
try:
# root = tk.Tk()
root = ttk.Window(themename="yeti")
app = PQAutomationApp(root)
root.mainloop()
except Exception as e:
print("程序发生错误:", e)
traceback.print_exc()
finally:
pass
if __name__ == "__main__":
main()
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