pqAutomationApp/app/views/chart_frame.py

"""图表框架相关逻辑（Step 3 重构）。

从 pqAutomationApp.PQAutomationApp 中搬迁而来。每个函数第一行 `self = app`
以保留原有 `self.xxx` 属性访问不变。
"""

import tkinter as tk
import ttkbootstrap as ttk
import matplotlib.pyplot as plt
from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg
from app.views.pq_debug_panel import PQDebugPanel

def init_gamut_chart(self):
    """初始化色域图表 - 手动设置subplot位置，完全避免重叠"""
    container = ttk.Frame(self.gamut_chart_frame)
    container.pack(expand=True, fill=tk.BOTH)

    self.gamut_fig = plt.Figure(figsize=(14, 6), dpi=100)
    self.gamut_canvas = FigureCanvasTkAgg(self.gamut_fig, master=container)

    canvas_widget = self.gamut_canvas.get_tk_widget()
    canvas_widget.pack(expand=True, fill=tk.BOTH)

    # ✅ 恢复原来的大尺寸：0.84 高度
    self.gamut_ax_xy = self.gamut_fig.add_axes(
        [0.02, 0.08, 0.46, 0.84]
    )  # ← 改回 0.84
    self.gamut_ax_uv = self.gamut_fig.add_axes(
        [0.52, 0.08, 0.46, 0.84]
    )  # ← 改回 0.84

    # 初始化XY图
    self.gamut_ax_xy.set_xlim(0, 600)
    self.gamut_ax_xy.set_ylim(600, 0)
    self.gamut_ax_xy.axis("off")
    self.gamut_ax_xy.set_clip_on(False)

    # 初始化UV图
    self.gamut_ax_uv.set_xlim(0, 600)
    self.gamut_ax_uv.set_ylim(600, 0)
    self.gamut_ax_uv.axis("off")
    self.gamut_ax_uv.set_clip_on(False)

    # 调整标题位置：y=0.98
    self.gamut_fig.suptitle("色域测试", fontsize=12, y=0.98)

    self.gamut_canvas.draw()

def init_gamma_chart(self):
    """初始化Gamma曲线图表 - 左侧曲线 + 右侧表格（✅ 4列 + 通用说明）"""
    container = ttk.Frame(self.gamma_chart_frame)
    container.pack(expand=True, fill=tk.BOTH)

    self.gamma_fig = plt.Figure(figsize=(12, 6), dpi=100, constrained_layout=False)
    self.gamma_canvas = FigureCanvasTkAgg(self.gamma_fig, master=container)

    canvas_widget = self.gamma_canvas.get_tk_widget()
    canvas_widget.pack(expand=True, fill=tk.BOTH)

    # 左侧：Gamma 曲线
    self.gamma_ax = self.gamma_fig.add_axes([0.08, 0.12, 0.50, 0.78])
    self.gamma_ax.set_xlabel("灰阶 (%)", fontsize=10)
    self.gamma_ax.set_ylabel("L_bar", fontsize=10)
    self.gamma_ax.set_xlim(0, 105)
    self.gamma_ax.set_ylim(0, 1.1)
    self.gamma_ax.grid(True, linestyle="--", alpha=0.3)
    self.gamma_ax.tick_params(labelsize=9)

    # 左侧提示（通用说明，不显示具体 Gamma 值）
    self.gamma_ax.text(
        0.5,
        0.5,
        "等待测试数据...\n\n"
        "将显示:\n"
        "• 实测曲线 (蓝色)\n"
        "• 理想 Gamma 曲线 (红色)\n\n"
        "Gamma 值由测试配置决定",
        ha="center",
        va="center",
        fontsize=10,
        color="gray",
        transform=self.gamma_ax.transAxes,
        bbox=dict(
            boxstyle="round,pad=1", facecolor="white", edgecolor="gray", alpha=0.8
        ),
    )

    # 右侧：数据表格
    self.gamma_table_ax = self.gamma_fig.add_axes([0.62, 0.12, 0.35, 0.78])
    self.gamma_table_ax.axis("off")

    # 4列表格数据
    table_data = [
        ["灰阶", "实测亮度\n(cd/m²)", "L_bar\n(计算)", "Gamma"],
        ["0%", "--", "--", "--"],
        ["10%", "--", "--", "--"],
        ["20%", "--", "--", "--"],
        ["30%", "--", "--", "--"],
        ["40%", "--", "--", "--"],
        ["50%", "--", "--", "--"],
        ["60%", "--", "--", "--"],
        ["70%", "--", "--", "--"],
        ["80%", "--", "--", "--"],
        ["90%", "--", "--", "--"],
        ["100%", "--", "--", "--"],
    ]

    table = self.gamma_table_ax.table(
        cellText=table_data,
        cellLoc="center",
        loc="center",
        colWidths=[0.18, 0.28, 0.27, 0.27],  # ← 4列宽度
    )

    table.auto_set_font_size(False)
    table.set_fontsize(7.5)
    table.scale(1, 1.5)

    # 表头样式
    for i in range(4):
        cell = table[(0, i)]
        cell.set_facecolor("#4472C4")
        cell.set_text_props(weight="bold", color="white", fontsize=7)

    # 数据行交替颜色
    for i in range(1, len(table_data)):
        for j in range(4):
            cell = table[(i, j)]
            if i % 2 == 0:
                cell.set_facecolor("#E7E6E6")
            else:
                cell.set_facecolor("#FFFFFF")

    # 底部说明
    self.gamma_table_ax.text(
        0.5,
        0.02,
        "表格说明:\n"
        "• 实测亮度: 色度计测量值 (cd/m²)\n"
        "• L_bar: 归一化亮度 (0-1)\n"
        "• Gamma: 实际 Gamma 值",
        ha="center",
        va="bottom",
        fontsize=7,
        color="gray",
        transform=self.gamma_table_ax.transAxes,
        bbox=dict(
            boxstyle="round,pad=0.5",
            facecolor="lightyellow",
            edgecolor="gray",
            alpha=0.8,
        ),
    )

    self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98)
    self.gamma_canvas.draw()

def init_eotf_chart(self):
    """初始化 EOTF 曲线图表（HDR 专用）- 左侧曲线 + 右侧表格（✅ 4列）"""
    container = ttk.Frame(self.eotf_chart_frame)
    container.pack(expand=True, fill=tk.BOTH)

    self.eotf_fig = plt.Figure(figsize=(12, 6), dpi=100, constrained_layout=False)
    self.eotf_canvas = FigureCanvasTkAgg(self.eotf_fig, master=container)

    canvas_widget = self.eotf_canvas.get_tk_widget()
    canvas_widget.pack(expand=True, fill=tk.BOTH)

    # 左侧：EOTF 曲线
    self.eotf_ax = self.eotf_fig.add_axes([0.08, 0.12, 0.50, 0.78])
    self.eotf_ax.set_xlabel("灰阶 (%)", fontsize=10)
    self.eotf_ax.set_ylabel("L_bar (归一化亮度)", fontsize=10)
    self.eotf_ax.set_xlim(0, 105)
    self.eotf_ax.set_ylim(0, 1.1)
    self.eotf_ax.grid(True, linestyle="--", alpha=0.3)
    self.eotf_ax.tick_params(labelsize=9)

    # 左侧提示
    self.eotf_ax.text(
        0.5,
        0.5,
        "等待测试数据...\n\n将显示:\n• 实测 EOTF 曲线 (蓝色)\n• 理想 PQ 曲线 (红色)",
        ha="center",
        va="center",
        fontsize=11,
        color="gray",
        transform=self.eotf_ax.transAxes,
        bbox=dict(
            boxstyle="round,pad=1", facecolor="white", edgecolor="gray", alpha=0.8
        ),
    )

    # 右侧：数据表格
    self.eotf_table_ax = self.eotf_fig.add_axes([0.62, 0.12, 0.35, 0.78])
    self.eotf_table_ax.axis("off")

    # 4列表格数据
    table_data = [
        ["灰阶", "实测亮度\n(cd/m²)", "L_bar\n(计算)", "EOTF γ"],
        ["0%", "--", "--", "--"],
        ["10%", "--", "--", "--"],
        ["20%", "--", "--", "--"],
        ["30%", "--", "--", "--"],
        ["40%", "--", "--", "--"],
        ["50%", "--", "--", "--"],
        ["60%", "--", "--", "--"],
        ["70%", "--", "--", "--"],
        ["80%", "--", "--", "--"],
        ["90%", "--", "--", "--"],
        ["100%", "--", "--", "--"],
    ]

    table = self.eotf_table_ax.table(
        cellText=table_data,
        cellLoc="center",
        loc="center",
        colWidths=[0.18, 0.28, 0.27, 0.27],
    )

    table.auto_set_font_size(False)
    table.set_fontsize(7.5)
    table.scale(1, 1.5)

    # 表头样式
    for i in range(4):
        cell = table[(0, i)]
        cell.set_facecolor("#4472C4")
        cell.set_text_props(weight="bold", color="white", fontsize=7)

    # 数据行交替颜色
    for i in range(1, len(table_data)):
        for j in range(4):
            cell = table[(i, j)]
            if i % 2 == 0:
                cell.set_facecolor("#E7E6E6")
            else:
                cell.set_facecolor("#FFFFFF")

    # 底部说明
    self.eotf_table_ax.text(
        0.5,
        0.02,
        "表格说明:\n"
        "• 实测亮度: 色度计测量值 (cd/m²)\n"
        "• L_bar: 归一化亮度 (0-1)\n"
        "• EOTF γ: HDR 实际 Gamma 值",
        ha="center",
        va="bottom",
        fontsize=7,
        color="gray",
        transform=self.eotf_table_ax.transAxes,
        bbox=dict(
            boxstyle="round,pad=0.5",
            facecolor="lightyellow",
            edgecolor="gray",
            alpha=0.8,
        ),
    )

    self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98)
    self.eotf_canvas.draw()

def init_cct_chart(self):
    """初始化色度坐标图表 - 正向横坐标，标题居中最上方"""
    container = ttk.Frame(self.cct_chart_frame)
    container.pack(expand=True)

    self.cct_fig = plt.Figure(figsize=(8, 6), dpi=100, tight_layout=False)
    self.cct_canvas = FigureCanvasTkAgg(self.cct_fig, master=container)

    canvas_widget = self.cct_canvas.get_tk_widget()
    canvas_widget.pack()
    canvas_widget.config(width=800, height=600)
    canvas_widget.pack_propagate(False)

    self.cct_ax1 = self.cct_fig.add_subplot(211)
    self.cct_ax2 = self.cct_fig.add_subplot(212)

    # 上图：x coordinates
    self.cct_ax1.set_xlabel("灰阶 (%)", fontsize=9)
    self.cct_ax1.set_ylabel("CIE x", fontsize=9)
    self.cct_ax1.set_xlim(0, 105)
    self.cct_ax1.set_ylim(0.25, 0.35)
    self.cct_ax1.grid(True, linestyle="--", alpha=0.3)
    self.cct_ax1.tick_params(labelsize=8)

    # 下图：y coordinates
    self.cct_ax2.set_xlabel("灰阶 (%)", fontsize=9)
    self.cct_ax2.set_ylabel("CIE y", fontsize=9)
    self.cct_ax2.set_xlim(0, 105)
    self.cct_ax2.set_ylim(0.25, 0.35)
    self.cct_ax2.grid(True, linestyle="--", alpha=0.3)
    self.cct_ax2.tick_params(labelsize=8)

    # 调整标题位置：y=0.985（比色域/Gamma略高）
    self.cct_fig.suptitle("色度一致性测试", fontsize=12, y=0.985)

    self.cct_fig.subplots_adjust(
        left=0.12,
        right=0.88,
        top=0.90,
        bottom=0.08,
        hspace=0.25,
    )

    self.cct_canvas.draw()

def init_contrast_chart(self):
    """初始化对比度图表 - 固定大小，居中显示"""
    container = ttk.Frame(self.contrast_chart_frame)
    container.pack(expand=True)

    self.contrast_fig = plt.Figure(
        figsize=(6, 6),
        dpi=100,
        tight_layout=False,
    )
    self.contrast_canvas = FigureCanvasTkAgg(self.contrast_fig, master=container)

    canvas_widget = self.contrast_canvas.get_tk_widget()
    canvas_widget.pack()

    canvas_widget.config(width=600, height=600)
    canvas_widget.pack_propagate(False)

    self.contrast_ax = self.contrast_fig.add_subplot(111)
    self.contrast_ax.set_xlim(0, 1)
    self.contrast_ax.set_ylim(0, 1)
    self.contrast_ax.axis("off")

    # 调整标题位置：y=0.985
    self.contrast_fig.suptitle("对比度测试", fontsize=12, y=0.985)

    self.contrast_fig.subplots_adjust(
        left=0.02,
        right=0.98,
        top=0.90,
        bottom=0.02,
    )

    self.contrast_canvas.draw()

def init_accuracy_chart(self):
    """初始化色准图表 - 固定大小，居中显示"""
    container = ttk.Frame(self.accuracy_chart_frame)
    container.pack(expand=True)

    self.accuracy_fig = plt.Figure(
        figsize=(10, 6),
        dpi=100,
        tight_layout=False,
    )
    self.accuracy_canvas = FigureCanvasTkAgg(self.accuracy_fig, master=container)

    canvas_widget = self.accuracy_canvas.get_tk_widget()
    canvas_widget.pack()

    canvas_widget.config(width=1000, height=600)
    canvas_widget.pack_propagate(False)

    self.accuracy_ax = self.accuracy_fig.add_subplot(111)
    self.accuracy_ax.set_xlim(0, 1)
    self.accuracy_ax.set_ylim(0, 1)
    self.accuracy_ax.axis("off")

    # 调整标题位置
    self.accuracy_fig.suptitle("色准测试", fontsize=12, y=0.985)

    self.accuracy_fig.subplots_adjust(
        left=0.05,
        right=0.95,
        top=0.90,
        bottom=0.05,
    )

    self.accuracy_canvas.draw()

def clear_chart(self):
    """清空所有图表"""

    # ========== 1. 清空色域图表 ==========
    if hasattr(self, "gamut_ax_xy") and hasattr(self, "gamut_ax_uv"):
        # 清空XY图
        self.gamut_ax_xy.clear()
        self.gamut_ax_xy.set_xlim(0, 600)
        self.gamut_ax_xy.set_ylim(600, 0)
        self.gamut_ax_xy.axis("off")
        self.gamut_ax_xy.set_clip_on(False)

        # 清空UV图
        self.gamut_ax_uv.clear()
        self.gamut_ax_uv.set_xlim(0, 600)
        self.gamut_ax_uv.set_ylim(600, 0)
        self.gamut_ax_uv.axis("off")
        self.gamut_ax_uv.set_clip_on(False)

        self.gamut_fig.suptitle("色域测试", fontsize=12, y=0.98)
        self.gamut_canvas.draw()

    # ========== 2. 清空Gamma图表（4列 + 通用说明）==========
    if hasattr(self, "gamma_ax") and hasattr(self, "gamma_table_ax"):
        # 清空左侧曲线
        self.gamma_ax.clear()
        self.gamma_ax.set_xlim(0, 105)
        self.gamma_ax.set_ylim(0, 1.1)
        self.gamma_ax.set_xlabel("灰阶 (%)", fontsize=10)
        self.gamma_ax.set_ylabel("L_bar", fontsize=10)
        self.gamma_ax.grid(True, linestyle="--", alpha=0.3)
        self.gamma_ax.tick_params(labelsize=9)

        # 左侧提示
        self.gamma_ax.text(
            0.5,
            0.5,
            "等待测试数据...\n\n"
            "将显示:\n"
            "• 实测曲线 (蓝色)\n"
            "• 理想 Gamma 曲线 (红色)\n\n"
            "Gamma 值由测试配置决定",
            ha="center",
            va="center",
            fontsize=10,
            color="gray",
            transform=self.gamma_ax.transAxes,
            bbox=dict(
                boxstyle="round,pad=1",
                facecolor="white",
                edgecolor="gray",
                alpha=0.8,
            ),
        )

        # 清空右侧表格
        self.gamma_table_ax.clear()
        self.gamma_table_ax.axis("off")

        # 4列表格
        table_data = [
            ["灰阶", "实测亮度\n(cd/m²)", "L_bar\n(计算)", "Gamma"],
            ["0%", "--", "--", "--"],
            ["10%", "--", "--", "--"],
            ["20%", "--", "--", "--"],
            ["30%", "--", "--", "--"],
            ["40%", "--", "--", "--"],
            ["50%", "--", "--", "--"],
            ["60%", "--", "--", "--"],
            ["70%", "--", "--", "--"],
            ["80%", "--", "--", "--"],
            ["90%", "--", "--", "--"],
            ["100%", "--", "--", "--"],
        ]

        table = self.gamma_table_ax.table(
            cellText=table_data,
            cellLoc="center",
            loc="center",
            colWidths=[0.18, 0.28, 0.27, 0.27],
        )

        table.auto_set_font_size(False)
        table.set_fontsize(7.5)
        table.scale(1, 1.5)

        # 表头样式
        for i in range(4):
            cell = table[(0, i)]
            cell.set_facecolor("#4472C4")
            cell.set_text_props(weight="bold", color="white", fontsize=7)

        # 数据行交替颜色
        for i in range(1, len(table_data)):
            for j in range(4):
                cell = table[(i, j)]
                if i % 2 == 0:
                    cell.set_facecolor("#E7E6E6")
                else:
                    cell.set_facecolor("#FFFFFF")

        # 底部说明
        self.gamma_table_ax.text(
            0.5,
            0.02,
            "表格说明:\n"
            "• 实测亮度: 色度计测量值 (cd/m²)\n"
            "• L_bar: 归一化亮度 (0-1)\n"
            "• Gamma: 实际 Gamma 值",
            ha="center",
            va="bottom",
            fontsize=7,
            color="gray",
            transform=self.gamma_table_ax.transAxes,
            bbox=dict(
                boxstyle="round,pad=0.5",
                facecolor="lightyellow",
                edgecolor="gray",
                alpha=0.8,
            ),
        )

        self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98)
        self.gamma_canvas.draw()

    # ========== 3. 清空EOTF图表（4列）==========
    if hasattr(self, "eotf_ax") and hasattr(self, "eotf_table_ax"):
        # 清空左侧曲线
        self.eotf_ax.clear()
        self.eotf_ax.set_xlim(0, 105)
        self.eotf_ax.set_ylim(0, 1.1)
        self.eotf_ax.set_xlabel("灰阶 (%)", fontsize=10)
        self.eotf_ax.set_ylabel("L_bar (归一化亮度)", fontsize=10)
        self.eotf_ax.grid(True, linestyle="--", alpha=0.3)
        self.eotf_ax.tick_params(labelsize=9)

        # 左侧提示
        self.eotf_ax.text(
            0.5,
            0.5,
            "等待测试数据...\n\n将显示:\n• 实测 EOTF 曲线 (蓝色)\n• 理想 PQ 曲线 (红色)",
            ha="center",
            va="center",
            fontsize=11,
            color="gray",
            transform=self.eotf_ax.transAxes,
            bbox=dict(
                boxstyle="round,pad=1",
                facecolor="white",
                edgecolor="gray",
                alpha=0.8,
            ),
        )

        # 清空右侧表格
        self.eotf_table_ax.clear()
        self.eotf_table_ax.axis("off")

        # 4列表格
        table_data = [
            ["灰阶", "实测亮度\n(cd/m²)", "L_bar\n(计算)", "EOTF γ"],
            ["0%", "--", "--", "--"],
            ["10%", "--", "--", "--"],
            ["20%", "--", "--", "--"],
            ["30%", "--", "--", "--"],
            ["40%", "--", "--", "--"],
            ["50%", "--", "--", "--"],
            ["60%", "--", "--", "--"],
            ["70%", "--", "--", "--"],
            ["80%", "--", "--", "--"],
            ["90%", "--", "--", "--"],
            ["100%", "--", "--", "--"],
        ]

        table = self.eotf_table_ax.table(
            cellText=table_data,
            cellLoc="center",
            loc="center",
            colWidths=[0.18, 0.28, 0.27, 0.27],
        )

        table.auto_set_font_size(False)
        table.set_fontsize(7.5)
        table.scale(1, 1.5)

        # 表头样式
        for i in range(4):
            cell = table[(0, i)]
            cell.set_facecolor("#4472C4")
            cell.set_text_props(weight="bold", color="white", fontsize=7)

        # 数据行交替颜色
        for i in range(1, len(table_data)):
            for j in range(4):
                cell = table[(i, j)]
                if i % 2 == 0:
                    cell.set_facecolor("#E7E6E6")
                else:
                    cell.set_facecolor("#FFFFFF")

        # 底部说明
        self.eotf_table_ax.text(
            0.5,
            0.02,
            "表格说明:\n"
            "• 实测亮度: 色度计测量值 (cd/m²)\n"
            "• L_bar: 归一化亮度 (0-1)\n"
            "• EOTF γ: HDR 实际 Gamma 值",
            ha="center",
            va="bottom",
            fontsize=7,
            color="gray",
            transform=self.eotf_table_ax.transAxes,
            bbox=dict(
                boxstyle="round,pad=0.5",
                facecolor="lightyellow",
                edgecolor="gray",
                alpha=0.8,
            ),
        )

        self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98)
        self.eotf_canvas.draw()

    # ========== 4. 清空色度图表 ==========
    if hasattr(self, "cct_ax1") and hasattr(self, "cct_ax2"):
        # 上图：x coordinates
        self.cct_ax1.clear()
        self.cct_ax1.set_xlabel("灰阶 (%)", fontsize=9)
        self.cct_ax1.set_ylabel("CIE x", fontsize=9)
        self.cct_ax1.set_xlim(0, 105)
        self.cct_ax1.set_ylim(0.25, 0.35)
        self.cct_ax1.grid(True, linestyle="--", alpha=0.3)
        self.cct_ax1.tick_params(labelsize=8)

        # 下图：y coordinates
        self.cct_ax2.clear()
        self.cct_ax2.set_xlabel("灰阶 (%)", fontsize=9)
        self.cct_ax2.set_ylabel("CIE y", fontsize=9)
        self.cct_ax2.set_xlim(0, 105)
        self.cct_ax2.set_ylim(0.25, 0.35)
        self.cct_ax2.grid(True, linestyle="--", alpha=0.3)
        self.cct_ax2.tick_params(labelsize=8)

        self.cct_fig.suptitle("色度一致性测试", fontsize=12, y=0.985)

        # 重置布局
        self.cct_fig.subplots_adjust(
            left=0.12,
            right=0.88,
            top=0.90,
            bottom=0.08,
            hspace=0.25,
        )

        self.cct_canvas.draw()

    # ========== 5. 清空对比度图表 ==========
    if hasattr(self, "contrast_ax"):
        self.contrast_ax.clear()
        self.contrast_ax.set_xlim(0, 1)
        self.contrast_ax.set_ylim(0, 1)
        self.contrast_ax.axis("off")

        self.contrast_fig.suptitle("对比度测试", fontsize=12, y=0.985)

        # 重置布局
        self.contrast_fig.subplots_adjust(
            left=0.02,
            right=0.98,
            top=0.90,
            bottom=0.02,
        )

        self.contrast_canvas.draw()

    # ========== 6. 清空色准图表 ==========
    if hasattr(self, "accuracy_ax"):
        self.accuracy_ax.clear()
        self.accuracy_ax.set_xlim(0, 1)
        self.accuracy_ax.set_ylim(0, 1)
        self.accuracy_ax.axis("off")

        # 标题
        self.accuracy_fig.suptitle("色准测试", fontsize=12, y=0.985)

        # 重置布局
        self.accuracy_fig.subplots_adjust(
            left=0.05,
            right=0.95,
            top=0.90,
            bottom=0.05,
        )

        self.accuracy_canvas.draw()

def update_chart_tabs_state(self):
    """根据测试项目复选框状态动态增删图表 Tab（保持规范顺序）。

    - 色域 / Gamma 或 EOTF / 色度一致性 / 对比度 / 色准 全部走动态 add/forget
    - Gamma 与 EOTF 二选一，由 current_test_type 决定
    - 屏模组测试强制隐藏色准 Tab
    - 客户模板 Tab 由 change_test_type 独立管理，这里不动
    """
    if not hasattr(self, "chart_notebook"):
        return

    selected_items = self.get_selected_test_items()
    current_test_type = self.config.current_test_type

    # 根据测试类型决定 gamma/eotf 显示哪一个
    if current_test_type == "hdr_movie":
        gamma_like_frame = self.eotf_chart_frame
        gamma_like_text = "EOTF 曲线"
        gamma_like_other = self.gamma_chart_frame
    else:
        gamma_like_frame = self.gamma_chart_frame
        gamma_like_text = "Gamma 曲线"
        gamma_like_other = self.eotf_chart_frame

    want_gamut = "gamut" in selected_items
    want_gamma_like = "gamma" in selected_items or "eotf" in selected_items
    want_cct = "cct" in selected_items
    want_contrast = "contrast" in selected_items
    want_accuracy = (
        "accuracy" in selected_items and current_test_type != "screen_module"
    )

    # 规范顺序：色域 → Gamma/EOTF → 色度一致性 → 对比度 → 色准
    spec = [
        (want_gamut,      self.gamut_chart_frame,    "色域图"),
        (want_gamma_like, gamma_like_frame,          gamma_like_text),
        (want_cct,        self.cct_chart_frame,      "色度一致性"),
        (want_contrast,   self.contrast_chart_frame, "对比度"),
        (want_accuracy,   self.accuracy_chart_frame, "色准"),
    ]

    try:
        # 始终先把"另一个" gamma/eotf frame 从 Notebook 移除，保持互斥
        current_ids = list(self.chart_notebook.tabs())
        if str(gamma_like_other) in current_ids:
            self.chart_notebook.forget(gamma_like_other)

        # 按规范顺序处理 add/forget
        for idx_in_spec, (want, frame, text) in enumerate(spec):
            fid = str(frame)
            present = fid in self.chart_notebook.tabs()

            if want and not present:
                # 统计该 frame 在 spec 中前面、当前实际存在的 tab 数 → 插入位置
                current_ids = list(self.chart_notebook.tabs())
                pos = sum(
                    1 for pre_want, pre_frame, _ in spec[:idx_in_spec]
                    if str(pre_frame) in current_ids
                )
                try:
                    self.chart_notebook.insert(pos, frame, text=text)
                except Exception:
                    # fallback：尾部 add
                    self.chart_notebook.add(frame, text=text)

            elif not want and present:
                self.chart_notebook.forget(frame)

    except Exception as e:
        if hasattr(self, "log_gui"):
            self.log_gui.log(f"更新Tab状态失败: {str(e)}")

def create_result_chart_frame(self):
    """创建结果图表区域 - 6个独立Tab（Gamma 和 EOTF 分离）"""
    # 创建Notebook用于图表切换
    self.chart_notebook = ttk.Notebook(self.result_frame)
    self.chart_notebook.pack(fill=tk.BOTH, expand=True, padx=5, pady=5)

    # ========== 创建6个独立的Tab页面 ==========
    # 1. 色域图页面
    self.gamut_chart_frame = ttk.Frame(self.chart_notebook)

    # 2. Gamma图页面（SDR/屏模组使用）
    self.gamma_chart_frame = ttk.Frame(self.chart_notebook)

    # 3. EOTF图页面（HDR专用）
    self.eotf_chart_frame = ttk.Frame(self.chart_notebook)

    # 4. 色度一致性页面
    self.cct_chart_frame = ttk.Frame(self.chart_notebook)

    # 5. 对比度页面
    self.contrast_chart_frame = ttk.Frame(self.chart_notebook)

    # 6. 色准页面
    self.accuracy_chart_frame = ttk.Frame(self.chart_notebook)

    # 7. 客户模板结果页面
    self.custom_template_tab_frame = ttk.Frame(self.chart_notebook)

    # ==========  添加到Notebook（初始只添加前5个）==========
    self.chart_notebook.add(self.gamut_chart_frame, text="色域图")
    self.chart_notebook.add(self.gamma_chart_frame, text="Gamma曲线")
    # ← EOTF 不添加，由 change_test_type() 动态控制
    self.chart_notebook.add(self.cct_chart_frame, text="色度一致性")
    self.chart_notebook.add(self.contrast_chart_frame, text="对比度")
    self.chart_notebook.add(self.accuracy_chart_frame, text="色准")

    # 初始化六个独立的图表
    self.init_gamut_chart()
    self.init_gamma_chart()
    self.init_eotf_chart()
    self.init_cct_chart()
    self.init_contrast_chart()
    self.init_accuracy_chart()

    # 绑定Tab切换事件
    self.chart_notebook.bind("<<NotebookTabChanged>>", self.on_chart_tab_changed)

    # ==================== ✅ 在图表下方创建单步调试面板 ====================
    self.debug_container = ttk.LabelFrame(
        self.result_frame,  # ← 放在 result_frame 内，图表正下方
        text="🔧 单步调试",
        padding=10,
    )
    # 默认不显示

    # 创建单步调试面板实例
    self.debug_panel = PQDebugPanel(self.debug_container, self)

    self.log_gui.log("✓ 单步调试面板已创建（放在测试结果图表下方）")

def on_chart_tab_changed(self, event):
    """Tab切换时的事件处理"""
    try:
        self._last_tab_index = self.chart_notebook.index(
            self.chart_notebook.select()
        )
    except Exception as e:
        self.log_gui.log(f"Tab切换事件处理失败: {str(e)}")