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修改深色模式下结果图片显示异常

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This commit is contained in:
xinzhu.yin
2026-06-05 16:58:46 +08:00
parent 49d82da8b9
commit e9a591bf6e
11 changed files with 385 additions and 140 deletions
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51
app/device/connection.py
View File

@@ -25,6 +25,7 @@ from typing import TYPE_CHECKING
from app.ucd_domain import ConnectionChanged, UcdError
from drivers.caSerail import CASerail
from drivers.ucd_driver import DeviceInfo
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -189,8 +190,7 @@ class ConnectionController:
self.disconnect_ucd()
self.disconnect_ca()
self._enable_widgets()
self._app.ucd_status_indicator.config(bg="gray")
self._app.ca_status_indicator.config(bg="gray")
self._app.refresh_connection_indicators()
self._app.status_var.set("串口连接已断开")
except Exception as exc: # noqa: BLE001
self._log(f"断开连接时发生错误: {exc}", level="info")
@@ -212,10 +212,7 @@ class ConnectionController:
)
app.ca_com_combo.config(values=com_ports)
if hasattr(app, "ucd_status_indicator"):
app.ucd_status_indicator.config(bg="gray")
if hasattr(app, "ca_status_indicator"):
app.ca_status_indicator.config(bg="gray")
app.refresh_connection_indicators()
app.update_config()
@@ -254,7 +251,45 @@ def check_com_connections(self: "PQAutomationApp"):
def update_connection_indicator(self: "PQAutomationApp", indicator, connected):
indicator.config(bg="green" if connected else "red")
_draw_connection_indicator(indicator, "green" if connected else "red")
def refresh_connection_indicators(self: "PQAutomationApp"):
"""根据当前设备状态重画 UCD / CA 指示灯。"""
if hasattr(self, "ucd_status_indicator"):
ucd_connected = bool(getattr(self.ucd, "status", False))
_draw_connection_indicator(
self.ucd_status_indicator,
"green" if ucd_connected else "gray",
)
if hasattr(self, "ca_status_indicator"):
ca_connected = getattr(self, "ca", None) is not None
_draw_connection_indicator(
self.ca_status_indicator,
"green" if ca_connected else "gray",
)
def _draw_connection_indicator(canvas, state: str) -> None:
palette = get_theme_palette()
color_map = {
"green": "#2ECC71",
"red": "#E74C3C",
"gray": "#9AA3AD",
}
fill = color_map.get(state, state)
border = palette["border"]
bg = palette["card_bg"]
try:
canvas.configure(bg=bg, highlightbackground=border, highlightcolor=border)
canvas.delete("all")
# 保持原有视觉:方形状态灯(红/绿/灰)
canvas.create_rectangle(0, 0, 15, 15, fill=fill, outline=border, width=1)
except Exception:
try:
canvas.config(bg=fill)
except Exception:
pass
def check_port_connection(self: "PQAutomationApp", is_ucd=True):
@@ -323,6 +358,7 @@ __all__ = [
"refresh_com_ports",
"check_com_connections",
"update_connection_indicator",
"refresh_connection_indicators",
"check_port_connection",
"enable_com_widgets",
"disconnect_com_connections",
@@ -338,6 +374,7 @@ class DeviceConnectionMixin:
refresh_com_ports = refresh_com_ports
check_com_connections = check_com_connections
update_connection_indicator = update_connection_indicator
refresh_connection_indicators = refresh_connection_indicators
check_port_connection = check_port_connection
enable_com_widgets = enable_com_widgets
disconnect_com_connections = disconnect_com_connections

40
app/plots/plot_accuracy.py
View File

@@ -9,7 +9,10 @@ from typing import TYPE_CHECKING
from matplotlib.patches import Rectangle
from matplotlib.lines import Line2D
from matplotlib.patches import Circle
import matplotlib.colors as mcolors
import numpy as np
from app.views.modern_styles import get_theme_palette
from app.plots.gamut_background import get_cie1976_background
from app.tests.color_accuracy import get_accuracy_color_standards
@@ -112,6 +115,9 @@ def _draw_left_panel(ax, color_patches, delta_e_values, font_scale=1.0, dark_mod
spine.set_linewidth(0.9)
# ============================================================
# 子图CIE 1976 u'v' 色度图(目标 vs 实测)
# ============================================================
@@ -121,12 +127,14 @@ def _draw_uv_diagram(ax, color_patches, measurements, standards, font_scale=1.0,
ax.clear()
try:
bg, bbox = get_cie1976_background()
if bg.shape[-1] == 4:
bg = bg[:, :, :3]
xmin, xmax, ymin, ymax = bbox
ax.imshow(
bg,
extent=(xmin, xmax, ymin, ymax),
origin="lower",
interpolation="bicubic",
interpolation="bilinear",
zorder=0,
aspect="auto",
)
@@ -181,8 +189,10 @@ def _draw_uv_diagram(ax, color_patches, measurements, standards, font_scale=1.0,
s_u, s_v = _xy_to_uv(sx, sy)
# face = get_patch_color_from_xy(name, (sx, sy)).strip().upper()
face = _COLOR_MAP.get(name, "#888888")
print(name, face)
face = _COLOR_MAP.get(name, "#FFFFFF")
# face = get_patch_color_from_xy(name, (mx, my))
# face = "#FF0000"
# 目标点Target 空心方框
ax.scatter(
@@ -300,17 +310,24 @@ def _draw_result_judgement(ax, accuracy_data, font_scale=1.0, dark_mode=False):
def plot_accuracy(self: "PQAutomationApp", accuracy_data, test_type):
"""绘制色准测试结果 - Calman 风格(色块 + CIE 1976 u'v' + 统计)。"""
fig = self.accuracy_fig
fig.clear()
palette = get_theme_palette()
try:
from app.views.theme_manager import is_dark
dark_mode = is_dark()
except Exception:
dark_mode = False
fig.patch.set_facecolor("#1B1F24" if dark_mode else "#FFFFFF")
fig = self.accuracy_fig
fig.clear()
try:
fig.set_layout_engine(None)
except Exception:
try:
fig.set_tight_layout(False)
except Exception:
pass
fig.patch.set_facecolor(palette["bg"])
# 根据当前画布像素尺寸动态缩放字体,避免窗口缩小时文字挤压重叠。
font_scale = 1.0
@@ -341,13 +358,12 @@ def plot_accuracy(self: "PQAutomationApp", accuracy_data, test_type):
else:
title = f"{test_type_name} - 色准测试(全 29色 | Gamma {target_gamma}"
title_color = "#F3F5F7" if dark_mode else "#111"
fig.suptitle(
title,
fontsize=max(8, 11 * font_scale),
y=0.975,
fontweight="bold",
color=title_color,
color=palette["fg"],
)
gs = fig.add_gridspec(
@@ -362,6 +378,8 @@ def plot_accuracy(self: "PQAutomationApp", accuracy_data, test_type):
ax_left = fig.add_subplot(gs[0, 0])
ax_uv = fig.add_subplot(gs[0, 1])
ax_judge = fig.add_subplot(gs[1, :])
for ax in (ax_left, ax_uv, ax_judge):
ax.set_facecolor(palette["card_bg"])
# 兼容外部对 self.accuracy_ax 的引用
self.accuracy_ax = ax_judge

131
app/plots/plot_cct.py
View File

@@ -4,6 +4,7 @@ Step 2 重构:从 pqAutomationApp.PQAutomationApp.plot_cct 原样搬迁。
"""
import numpy as np
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -11,11 +12,36 @@ if TYPE_CHECKING:
from pqAutomationApp import PQAutomationApp
def _is_dark_palette(palette: dict[str, str]) -> bool:
"""根据主题背景色亮度判断是否深色主题。"""
bg = palette.get("bg", "#FFFFFF").lstrip("#")
try:
r = int(bg[0:2], 16)
g = int(bg[2:4], 16)
b = int(bg[4:6], 16)
except Exception:
return False
return (r * 299 + g * 587 + b * 114) / 1000 < 128
def plot_cct(self: "PQAutomationApp", test_type):
"""绘制 x 和 y 坐标分离图 - 每个点标注纵坐标值"""
palette = get_theme_palette()
dark_mode = _is_dark_palette(palette)
x_line_color = "#2F8BFF" if dark_mode else "#0A4BFF"
y_line_color = "#FF4D4D" if dark_mode else "#D90429"
ideal_line_color = "#00C853" if dark_mode else "#198754"
x_tol_color = "#FF7070" if dark_mode else "#C0392B"
y_tol_color = "#FFB74D" if dark_mode else "#D68910"
grid_color = "#566070" if dark_mode else "#B8BDC3"
axis_text = "#EDF2FA" if dark_mode else palette["fg"]
axis_sub_text = "#C8D2E0" if dark_mode else "#222222"
legend_bg = "#131821" if dark_mode else "#FFFFFF"
legend_edge = "#A4B2C6" if dark_mode else palette["border"]
self.cct_fig.clear()
self.cct_fig.patch.set_facecolor(palette["bg"])
gray_data = self.results.get_intermediate_data("shared", "gray")
if not gray_data:
@@ -31,7 +57,7 @@ def plot_cct(self: "PQAutomationApp", test_type):
ha="center",
va="center",
fontsize=14,
color="red",
color=palette["danger"],
)
ax.axis("off")
self.cct_canvas.draw()
@@ -111,12 +137,20 @@ def plot_cct(self: "PQAutomationApp", test_type):
# 为所有测试类型创建子图
ax1 = self.cct_fig.add_subplot(211)
ax2 = self.cct_fig.add_subplot(212)
for ax in (ax1, ax2):
ax.set_facecolor(palette["card_bg"])
for spine in ax.spines.values():
spine.set_color(palette["border"])
ax.tick_params(labelsize=8, colors=axis_sub_text)
ax.xaxis.label.set_color(axis_text)
ax.yaxis.label.set_color(axis_text)
# ========== 上图x coordinates ==========
ax1.plot(
grayscale,
x_measured,
"b-o",
color=x_line_color,
marker="o",
label="屏本体",
linewidth=2,
markersize=4,
@@ -133,13 +167,13 @@ def plot_cct(self: "PQAutomationApp", test_type):
ha="center",
va="bottom",
fontsize=7,
color="blue",
color=x_line_color,
bbox=dict(
boxstyle="round,pad=0.2",
facecolor="white",
edgecolor="blue",
alpha=0.8,
linewidth=0.5,
facecolor=palette["card_bg"],
edgecolor=x_line_color,
alpha=0.92 if dark_mode else 0.85,
linewidth=0.8,
),
)
@@ -147,7 +181,7 @@ def plot_cct(self: "PQAutomationApp", test_type):
full_grayscale = np.linspace(0, 100, 100)
ax1.axhline(
y=x_ideal,
color="green",
color=ideal_line_color,
linestyle="--",
linewidth=1.5,
label=f"x-ideal ({x_ideal:.4f})",
@@ -155,30 +189,34 @@ def plot_cct(self: "PQAutomationApp", test_type):
)
ax1.axhline(
y=x_low,
color="red",
color=x_tol_color,
linestyle=":",
linewidth=1,
alpha=0.7,
alpha=0.95 if dark_mode else 0.7,
label=f"x-low ({x_low:.4f})",
zorder=2,
)
ax1.axhline(
y=x_high,
color="red",
color=x_tol_color,
linestyle=":",
linewidth=1,
alpha=0.7,
alpha=0.95 if dark_mode else 0.7,
label=f"x-high ({x_high:.4f})",
zorder=2,
)
ax1.fill_between(
full_grayscale, x_low, x_high, alpha=0.15, color="blue", zorder=1
full_grayscale,
x_low,
x_high,
alpha=0.22 if dark_mode else 0.15,
color=x_line_color,
zorder=1,
)
ax1.set_xlabel("灰阶 (%)", fontsize=9)
ax1.set_ylabel("CIE x", fontsize=9)
ax1.grid(True, linestyle="--", alpha=0.3)
ax1.tick_params(labelsize=8)
ax1.set_xlabel("灰阶 (%)", fontsize=9, color=axis_text)
ax1.set_ylabel("CIE x", fontsize=9, color=axis_text)
ax1.grid(True, linestyle="--", alpha=0.45 if dark_mode else 0.3, color=grid_color)
ax1.set_xlim(0, 105)
# 纵坐标范围由用户参数控制
@@ -211,7 +249,8 @@ def plot_cct(self: "PQAutomationApp", test_type):
ax2.plot(
grayscale,
y_measured,
"r-o",
color=y_line_color,
marker="o",
label="屏本体",
linewidth=2,
markersize=4,
@@ -228,19 +267,19 @@ def plot_cct(self: "PQAutomationApp", test_type):
ha="center",
va="bottom",
fontsize=7,
color="red",
color=y_line_color,
bbox=dict(
boxstyle="round,pad=0.2",
facecolor="white",
edgecolor="red",
alpha=0.8,
linewidth=0.5,
facecolor=palette["card_bg"],
edgecolor=y_line_color,
alpha=0.92 if dark_mode else 0.85,
linewidth=0.8,
),
)
ax2.axhline(
y=y_ideal,
color="green",
color=ideal_line_color,
linestyle="--",
linewidth=1.5,
label=f"y-ideal ({y_ideal:.4f})",
@@ -248,30 +287,34 @@ def plot_cct(self: "PQAutomationApp", test_type):
)
ax2.axhline(
y=y_low,
color="orange",
color=y_tol_color,
linestyle=":",
linewidth=1,
alpha=0.7,
alpha=0.95 if dark_mode else 0.7,
label=f"y-low ({y_low:.4f})",
zorder=2,
)
ax2.axhline(
y=y_high,
color="orange",
color=y_tol_color,
linestyle=":",
linewidth=1,
alpha=0.7,
alpha=0.95 if dark_mode else 0.7,
label=f"y-high ({y_high:.4f})",
zorder=2,
)
ax2.fill_between(
full_grayscale, y_low, y_high, alpha=0.15, color="orange", zorder=1
full_grayscale,
y_low,
y_high,
alpha=0.22 if dark_mode else 0.15,
color=y_tol_color,
zorder=1,
)
ax2.set_xlabel("灰阶 (%)", fontsize=9)
ax2.set_ylabel("CIE y", fontsize=9)
ax2.grid(True, linestyle="--", alpha=0.3)
ax2.tick_params(labelsize=8)
ax2.set_xlabel("灰阶 (%)", fontsize=9, color=axis_text)
ax2.set_ylabel("CIE y", fontsize=9, color=axis_text)
ax2.grid(True, linestyle="--", alpha=0.45 if dark_mode else 0.3, color=grid_color)
ax2.set_xlim(0, 105)
# 纵坐标范围由用户参数控制
@@ -307,6 +350,7 @@ def plot_cct(self: "PQAutomationApp", test_type):
fontsize=12,
y=0.98,
fontweight="bold",
color=palette["fg"],
)
self.cct_fig.subplots_adjust(
@@ -317,12 +361,25 @@ def plot_cct(self: "PQAutomationApp", test_type):
hspace=0.30,
)
ax1.legend(
fontsize=7, loc="center left", bbox_to_anchor=(1.05, 0.5), framealpha=1.0
legend1 = ax1.legend(
fontsize=7,
loc="center left",
bbox_to_anchor=(1.05, 0.5),
framealpha=0.92 if dark_mode else 1.0,
facecolor=legend_bg,
edgecolor=legend_edge,
)
ax2.legend(
fontsize=7, loc="center left", bbox_to_anchor=(1.05, 0.5), framealpha=1.0
legend2 = ax2.legend(
fontsize=7,
loc="center left",
bbox_to_anchor=(1.05, 0.5),
framealpha=0.92 if dark_mode else 1.0,
facecolor=legend_bg,
edgecolor=legend_edge,
)
for legend in (legend1, legend2):
for text in legend.get_texts():
text.set_color(axis_text)
self.cct_canvas.draw()
self.chart_notebook.select(self.cct_chart_frame)

17
app/plots/plot_contrast.py
View File

@@ -4,6 +4,7 @@ Step 2 重构:从 pqAutomationApp.PQAutomationApp.plot_contrast 原样搬迁
"""
from matplotlib.patches import Rectangle
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -14,9 +15,12 @@ if TYPE_CHECKING:
def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
"""绘制对比度测试结果 - 固定布局版本"""
palette = get_theme_palette()
# 清空并重置
self.contrast_ax.clear()
self.contrast_fig.patch.set_facecolor(palette["bg"])
self.contrast_ax.set_facecolor(palette["card_bg"])
self.contrast_ax.set_xlim(0, 1)
self.contrast_ax.set_ylim(0, 1)
self.contrast_ax.axis("off")
@@ -51,6 +55,7 @@ def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
fontsize=12,
y=0.98,
fontweight="bold",
color=palette["fg"],
)
# ========== 中央大对比度卡片 ==========
@@ -107,16 +112,16 @@ def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
"title": "白场亮度",
"value": f"{max_lum:.2f}",
"unit": "cd/m²",
"color": "#E3F2FD",
"edge_color": "#2196F3",
"color": palette["surface_alt_bg"],
"edge_color": palette["primary"],
},
{
"x": start_x + card_width + gap,
"title": "黑场亮度",
"value": f"{min_lum:.4f}",
"unit": "cd/m²",
"color": "#F3E5F5",
"edge_color": "#9C27B0",
"color": palette["card_bg"],
"edge_color": palette["secondary"],
},
]
@@ -142,6 +147,7 @@ def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
va="top",
fontsize=10,
fontweight="bold",
color=palette["fg"],
transform=self.contrast_ax.transAxes,
)
@@ -154,6 +160,7 @@ def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
va="center",
fontsize=16,
fontweight="bold",
color=palette["fg"],
transform=self.contrast_ax.transAxes,
)
@@ -165,7 +172,7 @@ def plot_contrast(self: "PQAutomationApp", contrast_data, test_type):
ha="center",
va="bottom",
fontsize=9,
color="gray",
color=palette["muted_fg"],
transform=self.contrast_ax.transAxes,
)

16
app/plots/plot_eotf.py
View File

@@ -4,6 +4,7 @@ Step 2 重构:从 pqAutomationApp.PQAutomationApp.plot_eotf 原样搬迁。
"""
import numpy as np
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -14,15 +15,21 @@ if TYPE_CHECKING:
def plot_eotf(self: "PQAutomationApp", L_bar, results_with_eotf_list, test_type):
"""绘制 EOTF 曲线 + 数据表格HDR 专用,包含实测亮度)"""
palette = get_theme_palette()
# ========== 1. 清空并重置左侧曲线 ==========
self.eotf_ax.clear()
self.eotf_fig.patch.set_facecolor(palette["bg"])
self.eotf_ax.set_facecolor(palette["card_bg"])
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", fontsize=10)
self.eotf_ax.grid(True, linestyle="--", alpha=0.3)
self.eotf_ax.tick_params(labelsize=9)
self.eotf_ax.tick_params(colors=palette["fg"])
for spine in self.eotf_ax.spines.values():
spine.set_color(palette["border"])
# 生成横坐标(灰阶百分比)
x_values = np.linspace(0, 100, len(L_bar))
@@ -120,17 +127,17 @@ def plot_eotf(self: "PQAutomationApp", L_bar, results_with_eotf_list, test_type)
# 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")
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"])
# 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
# ========== 3. 总标题 ==========
test_type_name = self.get_test_type_name(test_type)
@@ -139,6 +146,7 @@ def plot_eotf(self: "PQAutomationApp", L_bar, results_with_eotf_list, test_type)
fontsize=12,
y=0.98,
fontweight="bold",
color=palette["fg"],
)
# 选中 EOTF Tab

65
app/plots/plot_gamma.py
View File

@@ -4,6 +4,7 @@ Step 2 重构:从 pqAutomationApp.PQAutomationApp.plot_gamma 原样搬迁。
"""
import numpy as np
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -11,18 +12,44 @@ if TYPE_CHECKING:
from pqAutomationApp import PQAutomationApp
def _is_dark_palette(palette: dict[str, str]) -> bool:
"""根据主题背景色亮度判断是否深色主题。"""
bg = palette.get("bg", "#FFFFFF").lstrip("#")
try:
r = int(bg[0:2], 16)
g = int(bg[2:4], 16)
b = int(bg[4:6], 16)
except Exception:
return False
return (r * 299 + g * 587 + b * 114) / 1000 < 128
def plot_gamma(self: "PQAutomationApp", L_bar, results_with_gamma_list, target_gamma, test_type):
"""绘制Gamma曲线 + 数据表格(包含实测亮度)"""
palette = get_theme_palette()
dark_mode = _is_dark_palette(palette)
line_actual = "#3FA7FF" if dark_mode else "#0A4BFF"
line_ideal = "#FF6B6B" if dark_mode else "#D62828"
grid_color = "#566070" if dark_mode else "#B8BDC3"
legend_bg = "#131821" if dark_mode else "#FFFFFF"
legend_edge = "#A4B2C6" if dark_mode else palette["border"]
table_edge = "#738196" if dark_mode else palette["border"]
table_body_fg = "#EEF3FA" if dark_mode else palette["fg"]
# ========== 1. 清空并重置左侧曲线 ==========
self.gamma_ax.clear()
self.gamma_fig.patch.set_facecolor(palette["bg"])
self.gamma_ax.set_facecolor(palette["card_bg"])
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.set_xlabel("灰阶 (%)", fontsize=10, color=palette["fg"])
self.gamma_ax.set_ylabel("L_bar", fontsize=10, color=palette["fg"])
self.gamma_ax.grid(True, linestyle="--", alpha=0.45 if dark_mode else 0.3, color=grid_color)
self.gamma_ax.tick_params(labelsize=9)
self.gamma_ax.tick_params(colors=palette["fg"])
for spine in self.gamma_ax.spines.values():
spine.set_color(palette["border"])
# 生成横坐标(灰阶百分比)
x_values = np.linspace(0, 100, len(L_bar))
@@ -46,7 +73,8 @@ def plot_gamma(self: "PQAutomationApp", L_bar, results_with_gamma_list, target_g
self.gamma_ax.plot(
x_values,
L_bar,
"b-o",
color=line_actual,
marker="o",
label=f"实测 (平均γ={avg_gamma:.2f})",
linewidth=2,
markersize=4,
@@ -58,15 +86,24 @@ def plot_gamma(self: "PQAutomationApp", L_bar, results_with_gamma_list, target_g
self.gamma_ax.plot(
x_values,
ideal_L_bar,
"r--",
color=line_ideal,
linestyle="--",
label=f"理想 (γ={target_gamma})",
linewidth=2,
alpha=0.7,
alpha=0.9 if dark_mode else 0.7,
zorder=3,
)
# 图例
self.gamma_ax.legend(fontsize=9, loc="upper left", framealpha=0.95)
legend = self.gamma_ax.legend(
fontsize=9,
loc="upper left",
framealpha=0.9 if dark_mode else 0.95,
facecolor=legend_bg,
edgecolor=legend_edge,
)
for text in legend.get_texts():
text.set_color(palette["fg"])
# ========== 2. 清空并绘制右侧表格 ==========
self.gamma_table_ax.clear()
@@ -120,17 +157,22 @@ def plot_gamma(self: "PQAutomationApp", L_bar, results_with_gamma_list, target_g
# 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")
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"])
cell.set_edgecolor(table_edge)
cell.set_linewidth(0.8)
# 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
cell.set_text_props(color=table_body_fg)
cell.set_edgecolor(table_edge)
cell.set_linewidth(0.6)
# ========== 3. 总标题 ==========
test_type_name = self.get_test_type_name(test_type)
@@ -139,6 +181,7 @@ def plot_gamma(self: "PQAutomationApp", L_bar, results_with_gamma_list, target_g
fontsize=12,
y=0.98,
fontweight="bold",
color=palette["fg"],
)
# ========== 4. 绘制到画布 ==========

8
app/plots/plot_gamut.py
View File

@@ -178,7 +178,7 @@ def _style_axes(ax, *, title, xlabel, ylabel, xlim, ylim, dark_mode):
ax.set_ylabel(ylabel, fontsize=10, color=text)
ax.set_xlim(*xlim)
ax.set_ylim(*ylim)
ax.set_aspect("equal", adjustable="datalim")
ax.set_aspect("equal", adjustable="box")
ax.grid(True, linestyle=":", linewidth=0.7, color=grid, alpha=0.32)
ax.tick_params(axis="both", labelsize=9, colors=text)
for spine in ax.spines.values():
@@ -193,8 +193,10 @@ def _blit_background(ax, background, bbox):
ax.imshow(
background,
extent=(xmin, xmax, ymin, ymax),
origin="upper", # canvas.buffer_rgba 行 0 为顶部
interpolation="bicubic",
# gamut_background._render_chromaticity 已做过 np.flipud
# 这里必须使用 lower 才能与真实色度坐标方向一致。
origin="lower",
interpolation="bilinear",
zorder=0,
aspect="auto", # 由 _style_axes 的 set_aspect("equal") 控制
)

172
app/views/chart_frame.py
View File

@@ -9,6 +9,7 @@ import ttkbootstrap as ttk
import matplotlib.pyplot as plt
from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg
from app.views.pq_debug_panel import PQDebugPanel
from app.views.modern_styles import get_theme_palette
from typing import TYPE_CHECKING
@@ -19,8 +20,7 @@ if TYPE_CHECKING:
def _result_bg_color() -> str:
"""根据当前主题返回结果图背景色。"""
try:
from app.views.theme_manager import is_dark
return "#1B1F24" if is_dark() else "#FFFFFF"
return get_theme_palette()["bg"]
except Exception:
return "#FFFFFF"
@@ -55,6 +55,19 @@ def apply_result_chart_theme(self: "PQAutomationApp"):
pass
def _apply_axes_theme(ax, palette, *, title=None, xlabel=None, ylabel=None):
ax.set_facecolor(palette["card_bg"])
for spine in ax.spines.values():
spine.set_color(palette["border"])
if title is not None:
ax.set_title(title, color=palette["fg"])
if xlabel is not None:
ax.set_xlabel(xlabel, color=palette["fg"])
if ylabel is not None:
ax.set_ylabel(ylabel, color=palette["fg"])
ax.tick_params(axis="both", colors=palette["fg"])
def init_gamut_chart(self: "PQAutomationApp"):
"""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)
@@ -154,8 +167,10 @@ def init_gamma_chart(self: "PQAutomationApp"):
"""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)
palette = get_theme_palette()
self.gamma_fig = plt.Figure(figsize=(12, 6), dpi=100, constrained_layout=False)
self.gamma_fig.patch.set_facecolor(palette["bg"])
self.gamma_canvas = FigureCanvasTkAgg(self.gamma_fig, master=container)
canvas_widget = self.gamma_canvas.get_tk_widget()
@@ -163,6 +178,7 @@ def init_gamma_chart(self: "PQAutomationApp"):
# 左侧Gamma 曲线
self.gamma_ax = self.gamma_fig.add_axes([0.08, 0.12, 0.50, 0.78])
_apply_axes_theme(self.gamma_ax, palette, xlabel="灰阶 (%)", ylabel="L_bar")
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)
@@ -182,10 +198,13 @@ def init_gamma_chart(self: "PQAutomationApp"):
ha="center",
va="center",
fontsize=10,
color="gray",
color=palette["muted_fg"],
transform=self.gamma_ax.transAxes,
bbox=dict(
boxstyle="round,pad=1", facecolor="white", edgecolor="gray", alpha=0.8
boxstyle="round,pad=1",
facecolor=palette["card_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
@@ -223,17 +242,17 @@ def init_gamma_chart(self: "PQAutomationApp"):
# 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)
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"], 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
# 底部说明
self.gamma_table_ax.text(
@@ -246,25 +265,27 @@ def init_gamma_chart(self: "PQAutomationApp"):
ha="center",
va="bottom",
fontsize=7,
color="gray",
color=palette["muted_fg"],
transform=self.gamma_table_ax.transAxes,
bbox=dict(
boxstyle="round,pad=0.5",
facecolor="lightyellow",
edgecolor="gray",
alpha=0.8,
facecolor=palette["surface_alt_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98)
self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98, color=palette["fg"])
self.gamma_canvas.draw()
def init_eotf_chart(self: "PQAutomationApp"):
"""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)
palette = get_theme_palette()
self.eotf_fig = plt.Figure(figsize=(12, 6), dpi=100, constrained_layout=False)
self.eotf_fig.patch.set_facecolor(palette["bg"])
self.eotf_canvas = FigureCanvasTkAgg(self.eotf_fig, master=container)
canvas_widget = self.eotf_canvas.get_tk_widget()
@@ -272,6 +293,7 @@ def init_eotf_chart(self: "PQAutomationApp"):
# 左侧EOTF 曲线
self.eotf_ax = self.eotf_fig.add_axes([0.08, 0.12, 0.50, 0.78])
_apply_axes_theme(self.eotf_ax, palette, xlabel="灰阶 (%)", ylabel="L_bar (归一化亮度)")
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)
@@ -287,10 +309,13 @@ def init_eotf_chart(self: "PQAutomationApp"):
ha="center",
va="center",
fontsize=11,
color="gray",
color=palette["muted_fg"],
transform=self.eotf_ax.transAxes,
bbox=dict(
boxstyle="round,pad=1", facecolor="white", edgecolor="gray", alpha=0.8
boxstyle="round,pad=1",
facecolor=palette["card_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
@@ -328,17 +353,17 @@ def init_eotf_chart(self: "PQAutomationApp"):
# 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)
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"], 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
# 底部说明
self.eotf_table_ax.text(
@@ -351,25 +376,27 @@ def init_eotf_chart(self: "PQAutomationApp"):
ha="center",
va="bottom",
fontsize=7,
color="gray",
color=palette["muted_fg"],
transform=self.eotf_table_ax.transAxes,
bbox=dict(
boxstyle="round,pad=0.5",
facecolor="lightyellow",
edgecolor="gray",
alpha=0.8,
facecolor=palette["surface_alt_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98)
self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98, color=palette["fg"])
self.eotf_canvas.draw()
def init_cct_chart(self: "PQAutomationApp"):
"""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)
palette = get_theme_palette()
self.cct_fig = plt.Figure(figsize=(8, 6), dpi=100, tight_layout=False)
self.cct_fig.patch.set_facecolor(palette["bg"])
self.cct_canvas = FigureCanvasTkAgg(self.cct_fig, master=container)
canvas_widget = self.cct_canvas.get_tk_widget()
@@ -378,7 +405,9 @@ def init_cct_chart(self: "PQAutomationApp"):
canvas_widget.pack_propagate(False)
self.cct_ax1 = self.cct_fig.add_subplot(211)
self.cct_ax1.set_facecolor(palette["card_bg"])
self.cct_ax2 = self.cct_fig.add_subplot(212)
self.cct_ax2.set_facecolor(palette["card_bg"])
# 上图x coordinates
self.cct_ax1.set_xlabel("灰阶 (%)", fontsize=9)
@@ -397,7 +426,7 @@ def init_cct_chart(self: "PQAutomationApp"):
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.suptitle("色度一致性测试", fontsize=12, y=0.985, color=palette["fg"])
self.cct_fig.subplots_adjust(
left=0.12,
@@ -413,12 +442,14 @@ def init_contrast_chart(self: "PQAutomationApp"):
"""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)
palette = get_theme_palette()
self.contrast_fig = plt.Figure(
figsize=(6, 6),
dpi=100,
tight_layout=False,
)
self.contrast_fig.patch.set_facecolor(palette["bg"])
self.contrast_canvas = FigureCanvasTkAgg(self.contrast_fig, master=container)
canvas_widget = self.contrast_canvas.get_tk_widget()
@@ -428,12 +459,13 @@ def init_contrast_chart(self: "PQAutomationApp"):
canvas_widget.pack_propagate(False)
self.contrast_ax = self.contrast_fig.add_subplot(111)
self.contrast_ax.set_facecolor(palette["card_bg"])
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.suptitle("对比度测试", fontsize=12, y=0.985, color=palette["fg"])
self.contrast_fig.subplots_adjust(
left=0.02,
@@ -448,6 +480,7 @@ def init_accuracy_chart(self: "PQAutomationApp"):
"""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, fill=tk.BOTH)
palette = get_theme_palette()
container.grid_rowconfigure(0, weight=1)
container.grid_rowconfigure(1, weight=0, minsize=220)
container.grid_columnconfigure(0, weight=1)
@@ -464,18 +497,27 @@ def init_accuracy_chart(self: "PQAutomationApp"):
dpi=100,
tight_layout=False,
)
self.accuracy_fig.patch.set_facecolor(palette["bg"])
try:
self.accuracy_fig.set_layout_engine(None)
except Exception:
try:
self.accuracy_fig.set_tight_layout(False)
except Exception:
pass
self.accuracy_canvas = FigureCanvasTkAgg(self.accuracy_fig, master=plot_container)
canvas_widget = self.accuracy_canvas.get_tk_widget()
canvas_widget.pack(fill=tk.BOTH, expand=True)
self.accuracy_ax = self.accuracy_fig.add_subplot(111)
self.accuracy_ax.set_facecolor(palette["card_bg"])
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.suptitle("色准测试", fontsize=12, y=0.985, color=palette["fg"])
self.accuracy_fig.subplots_adjust(
left=0.05,
@@ -616,6 +658,7 @@ def update_accuracy_result_table(self: "PQAutomationApp", accuracy_data, standar
def clear_chart(self: "PQAutomationApp"):
"""清空所有图表"""
palette = get_theme_palette()
# ========== 1. 清空色域图表 ==========
if hasattr(self, "gamut_ax_xy") and hasattr(self, "gamut_ax_uv"):
@@ -640,12 +683,17 @@ def clear_chart(self: "PQAutomationApp"):
if hasattr(self, "gamma_ax") and hasattr(self, "gamma_table_ax"):
# 清空左侧曲线
self.gamma_ax.clear()
self.gamma_fig.patch.set_facecolor(palette["bg"])
self.gamma_ax.set_facecolor(palette["card_bg"])
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)
self.gamma_ax.tick_params(colors=palette["fg"])
for spine in self.gamma_ax.spines.values():
spine.set_color(palette["border"])
# 左侧提示
self.gamma_ax.text(
@@ -659,13 +707,13 @@ def clear_chart(self: "PQAutomationApp"):
ha="center",
va="center",
fontsize=10,
color="gray",
color=palette["muted_fg"],
transform=self.gamma_ax.transAxes,
bbox=dict(
boxstyle="round,pad=1",
facecolor="white",
edgecolor="gray",
alpha=0.8,
facecolor=palette["card_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
@@ -703,17 +751,17 @@ def clear_chart(self: "PQAutomationApp"):
# 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)
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"], 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
# 底部说明
self.gamma_table_ax.text(
@@ -726,29 +774,34 @@ def clear_chart(self: "PQAutomationApp"):
ha="center",
va="bottom",
fontsize=7,
color="gray",
color=palette["muted_fg"],
transform=self.gamma_table_ax.transAxes,
bbox=dict(
boxstyle="round,pad=0.5",
facecolor="lightyellow",
edgecolor="gray",
alpha=0.8,
facecolor=palette["surface_alt_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98)
self.gamma_fig.suptitle("Gamma曲线 + 数据表格", fontsize=12, y=0.98, color=palette["fg"])
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_fig.patch.set_facecolor(palette["bg"])
self.eotf_ax.set_facecolor(palette["card_bg"])
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)
self.eotf_ax.tick_params(colors=palette["fg"])
for spine in self.eotf_ax.spines.values():
spine.set_color(palette["border"])
# 左侧提示
self.eotf_ax.text(
@@ -758,13 +811,13 @@ def clear_chart(self: "PQAutomationApp"):
ha="center",
va="center",
fontsize=11,
color="gray",
color=palette["muted_fg"],
transform=self.eotf_ax.transAxes,
bbox=dict(
boxstyle="round,pad=1",
facecolor="white",
edgecolor="gray",
alpha=0.8,
facecolor=palette["card_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
@@ -802,17 +855,17 @@ def clear_chart(self: "PQAutomationApp"):
# 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)
cell.set_facecolor(palette["primary"])
cell.set_text_props(weight="bold", color=palette["select_fg"], 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")
cell.set_facecolor(palette["surface_alt_bg"])
else:
cell.set_facecolor("#FFFFFF")
cell.set_facecolor(palette["card_bg"])
# 底部说明
self.eotf_table_ax.text(
@@ -825,17 +878,17 @@ def clear_chart(self: "PQAutomationApp"):
ha="center",
va="bottom",
fontsize=7,
color="gray",
color=palette["muted_fg"],
transform=self.eotf_table_ax.transAxes,
bbox=dict(
boxstyle="round,pad=0.5",
facecolor="lightyellow",
edgecolor="gray",
alpha=0.8,
facecolor=palette["surface_alt_bg"],
edgecolor=palette["border"],
alpha=0.95,
),
)
self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98)
self.eotf_fig.suptitle("EOTF 曲线 + 数据表格", fontsize=12, y=0.98, color=palette["fg"])
self.eotf_canvas.draw()
# ========== 4. 清空色度图表 ==========
@@ -843,8 +896,10 @@ def clear_chart(self: "PQAutomationApp"):
# 过期引用。因此清空时必须同样重建,并更新引用,否则清不干净。
if hasattr(self, "cct_fig") and hasattr(self, "cct_canvas"):
self.cct_fig.clear()
self.cct_fig.patch.set_facecolor(palette["bg"])
self.cct_ax1 = self.cct_fig.add_subplot(211)
self.cct_ax1.set_facecolor(palette["card_bg"])
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)
@@ -853,6 +908,7 @@ def clear_chart(self: "PQAutomationApp"):
self.cct_ax1.tick_params(labelsize=8)
self.cct_ax2 = self.cct_fig.add_subplot(212)
self.cct_ax2.set_facecolor(palette["card_bg"])
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)
@@ -860,7 +916,7 @@ def clear_chart(self: "PQAutomationApp"):
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)
self.cct_fig.suptitle("色度一致性测试", fontsize=12, y=0.985, color=palette["fg"])
self.cct_fig.subplots_adjust(
left=0.12,
right=0.88,
@@ -873,11 +929,13 @@ def clear_chart(self: "PQAutomationApp"):
# ========== 5. 清空对比度图表 ==========
if hasattr(self, "contrast_ax"):
self.contrast_ax.clear()
self.contrast_fig.patch.set_facecolor(palette["bg"])
self.contrast_ax.set_facecolor(palette["card_bg"])
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)
self.contrast_fig.suptitle("对比度测试", fontsize=12, y=0.985, color=palette["fg"])
# 重置布局
self.contrast_fig.subplots_adjust(
@@ -892,12 +950,14 @@ def clear_chart(self: "PQAutomationApp"):
# ========== 6. 清空色准图表 ==========
if hasattr(self, "accuracy_ax"):
self.accuracy_ax.clear()
self.accuracy_fig.patch.set_facecolor(palette["bg"])
self.accuracy_ax.set_facecolor(palette["card_bg"])
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)
self.accuracy_fig.suptitle("色准测试", fontsize=12, y=0.985, color=palette["fg"])
# 重置布局
self.accuracy_fig.subplots_adjust(

9
app/views/panels/main_layout.py
View File

@@ -600,7 +600,6 @@ def create_connection_content(self: "PQAutomationApp"):
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)
@@ -669,7 +668,8 @@ def create_connection_content(self: "PQAutomationApp"):
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")
self.refresh_connection_indicators()
# 添加CA通道设置
ttk.Label(com_frame, text="CA通道:").grid(
@@ -808,6 +808,11 @@ def _on_toggle_theme(self: "PQAutomationApp") -> None:
toggle_theme()
# apply_modern_styles()
_refresh_theme_toggle_label(self)
if hasattr(self, "refresh_connection_indicators"):
try:
self.refresh_connection_indicators()
except Exception:
pass
if hasattr(self, "apply_result_chart_theme"):
try:
self.apply_result_chart_theme()

7
pqAutomationApp.py
View File

@@ -6,6 +6,7 @@ import time
import os
import datetime
import traceback
import matplotlib
import matplotlib.pyplot as plt
from app_version import APP_NAME, APP_VERSION, get_app_title
from drivers.UCD323_Function import UCDController
@@ -62,7 +63,6 @@ from app.runner.test_runner import TestRunnerMixin
plt.rcParams["font.family"] = ["sans-serif"]
plt.rcParams["font.sans-serif"] = ["Microsoft YaHei"]
class PQAutomationApp(
ConfigIOMixin,
ChartFrameMixin,
@@ -431,6 +431,11 @@ class PQAutomationApp(
# 更新测试项目和侧边栏
self.update_test_items()
if hasattr(self, "refresh_connection_indicators"):
try:
self.refresh_connection_indicators()
except Exception:
pass
self.update_sidebar_selection()
self.on_test_type_change()
self._switch_signal_format_tabs(test_type)

9
settings/pq_config.json
View File

@@ -1,10 +1,13 @@
{
"current_test_type": "sdr_movie",
"current_test_type": "screen_module",
"test_types": {
"screen_module": {
"name": "屏模组性能测试",
"test_items": [
"gamma"
"gamut",
"gamma",
"cct",
"contrast"
],
"timing": "DMT 1920x 1080 @ 60Hz",
"data_range": "Full",
@@ -51,7 +54,7 @@
"y_ideal": 0.329,
"y_tolerance": 0.003
},
"gamut_reference": "BT.709"
"gamut_reference": "BT.601"
},
"hdr_movie": {
"name": "HDR Movie测试",