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界面优化

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2026-05-07 14:23:58 +08:00
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
Step3 面板 - 耀斑去除
"""
import os
from PyQt5.QtWidgets import (
QWidget, QVBoxLayout, QGroupBox, QFormLayout,
QDoubleSpinBox, QSpinBox, QComboBox, QCheckBox, QPushButton,
QLabel, QLineEdit, QMessageBox,
)
from PyQt5.QtCore import Qt
# 从公共组件库导入
from src.gui.components.custom_widgets import FileSelectWidget
from src.gui.styles import ModernStylesheet
class Step3Panel(QWidget):
"""步骤3耀斑去除"""
def __init__(self, parent=None):
super().__init__(parent)
self.init_ui()
def init_ui(self):
layout = QVBoxLayout()
# 标题
# 影像文件
self.img_file = FileSelectWidget(
"影像文件:",
"Image Files (*.bsq *.dat *.tif);;All Files (*.*)"
)
layout.addWidget(self.img_file)
# 水域掩膜/边界完整流程可由步骤1自动生成独立单步运行时须手动指定
self.water_mask_file = FileSelectWidget(
"水域掩膜/边界:",
"Mask/Boundary (*.dat *.tif *.shp);;All Files (*.*)"
)
layout.addWidget(self.water_mask_file)
step3_mask_hint = QLabel(
"提示:独立运行本步骤时必须选择水域掩膜或边界(与影像同区域的 .dat/.tif 掩膜,或 .shp 矢量)。"
)
step3_mask_hint.setWordWrap(True)
step3_mask_hint.setStyleSheet("color: #666; font-size: 10px;")
layout.addWidget(step3_mask_hint)
# 方法选择
method_group = QGroupBox("去耀斑方法")
method_layout = QVBoxLayout()
self.method = QComboBox()
for text, data in [('Goodman方法', 'goodman'), ('Kutser方法', 'kutser'),
('Hedley方法', 'hedley'), ('SUGAR算法', 'sugar')]:
self.method.addItem(text, data)
self.method.currentIndexChanged.connect(self._on_method_changed)
method_layout.addWidget(self.method)
method_group.setLayout(method_layout)
layout.addWidget(method_group)
# Goodman参数组
self.goodman_group = QGroupBox("Goodman方法参数")
goodman_layout = QFormLayout()
self.nir_lower = QSpinBox()
self.nir_lower.setRange(0, 200)
self.nir_lower.setValue(65)
goodman_layout.addRow("NIR下波段索引:", self.nir_lower)
self.nir_upper = QSpinBox()
self.nir_upper.setRange(0, 200)
self.nir_upper.setValue(91)
goodman_layout.addRow("NIR上波段索引:", self.nir_upper)
self.goodman_a = QDoubleSpinBox()
self.goodman_a.setDecimals(6)
self.goodman_a.setRange(0, 1)
self.goodman_a.setValue(0.000019)
goodman_layout.addRow("参数A:", self.goodman_a)
self.goodman_b = QDoubleSpinBox()
self.goodman_b.setDecimals(2)
self.goodman_b.setRange(0, 1)
self.goodman_b.setValue(0.1)
goodman_layout.addRow("参数B:", self.goodman_b)
self.goodman_group.setLayout(goodman_layout)
layout.addWidget(self.goodman_group)
# Kutser参数组
self.kutser_group = QGroupBox("Kutser方法参数")
kutser_layout = QFormLayout()
self.oxy_band = QSpinBox()
self.oxy_band.setRange(0, 200)
self.oxy_band.setValue(8)
kutser_layout.addRow("氧吸收波段索引:", self.oxy_band)
self.lower_oxy = QDoubleSpinBox()
self.lower_oxy.setDecimals(2)
self.lower_oxy.setRange(0, 1000)
self.lower_oxy.setValue(756.54)
kutser_layout.addRow("下氧吸收波长(nm):", self.lower_oxy)
self.upper_oxy = QDoubleSpinBox()
self.upper_oxy.setDecimals(2)
self.upper_oxy.setRange(0, 1000)
self.upper_oxy.setValue(766.54)
kutser_layout.addRow("上氧吸收波长(nm):", self.upper_oxy)
self.nir_band = QSpinBox()
self.nir_band.setRange(0, 200)
self.nir_band.setValue(65)
kutser_layout.addRow("NIR波段索引:", self.nir_band)
self.kutser_group.setLayout(kutser_layout)
self.kutser_group.setVisible(False)
layout.addWidget(self.kutser_group)
# Hedley参数组
self.hedley_group = QGroupBox("Hedley方法参数")
hedley_layout = QFormLayout()
self.hedley_nir_band = QSpinBox()
self.hedley_nir_band.setRange(0, 200)
self.hedley_nir_band.setValue(47)
hedley_layout.addRow("NIR波段索引:", self.hedley_nir_band)
self.hedley_group.setLayout(hedley_layout)
self.hedley_group.setVisible(False)
layout.addWidget(self.hedley_group)
# SUGAR参数组
self.sugar_group = QGroupBox("SUGAR方法参数")
sugar_layout = QFormLayout()
self.sugar_iter = QSpinBox()
self.sugar_iter.setRange(1, 20)
self.sugar_iter.setValue(3)
self.sugar_iter.setSpecialValueText("自动")
sugar_layout.addRow("迭代次数:", self.sugar_iter)
self.sugar_sigma = QDoubleSpinBox()
self.sugar_sigma.setDecimals(2)
self.sugar_sigma.setRange(0.1, 10)
self.sugar_sigma.setValue(1.0)
sugar_layout.addRow("LoG平滑σ:", self.sugar_sigma)
self.sugar_estimate_background = QCheckBox()
self.sugar_estimate_background.setChecked(True)
sugar_layout.addRow("估计背景光谱:", self.sugar_estimate_background)
self.sugar_glint_mask_method = QComboBox()
self.sugar_glint_mask_method.addItems(['cdf', 'otsu'])
self.sugar_glint_mask_method.setCurrentText('cdf')
sugar_layout.addRow("耀斑掩膜方法:", self.sugar_glint_mask_method)
self.sugar_termination_thresh = QDoubleSpinBox()
self.sugar_termination_thresh.setDecimals(2)
self.sugar_termination_thresh.setRange(1, 100)
self.sugar_termination_thresh.setValue(20.0)
sugar_layout.addRow("终止阈值:", self.sugar_termination_thresh)
self.sugar_bounds = QLineEdit()
self.sugar_bounds.setText("[(1, 2)]")
sugar_layout.addRow("优化边界:", self.sugar_bounds)
self.sugar_group.setLayout(sugar_layout)
self.sugar_group.setVisible(False)
layout.addWidget(self.sugar_group)
# 插值选项
interp_group = QGroupBox("0值像素插值")
interp_layout = QFormLayout()
self.interpolate_zeros = QCheckBox("启用插值")
interp_layout.addRow("", self.interpolate_zeros)
self.interp_method = QComboBox()
for text, data in [('最近邻插值', 'nearest'), ('双线性插值', 'bilinear'),
('样条插值', 'spline'), ('克里金插值', 'kriging')]:
self.interp_method.addItem(text, data)
self.interp_method.setCurrentIndex(1) # 默认双线性插值
interp_layout.addRow("插值方法:", self.interp_method)
interp_group.setLayout(interp_layout)
layout.addWidget(interp_group)
# # 实测经纬度参考点
# self.ref_csv_file = FileSelectWidget(
# "实测经纬度CSV:",
# "CSV Files (*.csv);;All Files (*.*)"
# )
# self.ref_csv_file.line_edit.setPlaceholderText("可选:包含 Lon/Lat 列的 CSV 文件")
# layout.addWidget(self.ref_csv_file)
# 交互式预览按钮
# self.preview_btn = QPushButton("👁️ 打开交互式影像预览")
# self.preview_btn.setStyleSheet(ModernStylesheet.get_button_stylesheet('info'))
# self.preview_btn.clicked.connect(self.open_interactive_viewer)
# layout.addWidget(self.preview_btn)
# 输出文件路径
self.output_file = FileSelectWidget(
"输出影像:",
"Image Files (*.bsq *.dat *.tif);;All Files (*.*)"
)
self.output_file.line_edit.setPlaceholderText("deglint_image.dat")
layout.addWidget(self.output_file)
# 启用步骤
self.enable_checkbox = QCheckBox("启用此步骤")
self.enable_checkbox.setChecked(True)
layout.addWidget(self.enable_checkbox)
# 独立运行按钮
self.run_btn = QPushButton("独立运行此步骤")
self.run_btn.setStyleSheet(ModernStylesheet.get_button_stylesheet('success'))
self.run_btn.clicked.connect(self.run_step)
layout.addWidget(self.run_btn)
layout.addStretch()
self.setLayout(layout)
# 信号连接:影像文件路径变化时动态更新波段范围
self.img_file.line_edit.textChanged.connect(self._update_band_ranges)
def open_interactive_viewer(self):
"""打开交互式影像预览"""
from src.gui.water_quality_gui import InteractiveViewerDialog
img_path = self.img_file.get_path()
if not img_path or not os.path.isfile(img_path):
QMessageBox.warning(self, "警告", "请先选择影像文件!")
return
water_mask = self.water_mask_file.get_path()
dialog = InteractiveViewerDialog(img_path, self)
if water_mask and os.path.isfile(water_mask):
dialog.load_water_mask(water_mask)
dialog.exec_()
def _update_band_ranges(self, file_path):
"""根据选择的影像动态限制波段索引的输入范围"""
from osgeo import gdal
if not file_path or not os.path.isfile(file_path):
return
try:
dataset = gdal.Open(file_path)
if dataset is None:
return
raster_count = dataset.RasterCount
max_band = max(0, raster_count - 1)
self.nir_lower.setMaximum(max_band)
self.nir_upper.setMaximum(max_band)
self.oxy_band.setMaximum(max_band)
self.nir_band.setMaximum(max_band)
self.hedley_nir_band.setMaximum(max_band)
dataset = None
except Exception:
pass
def update_from_config(self, work_dir=None, pipeline=None):
"""
从 Step1Panel 自动填充水域掩膜路径,实现上下游数据流转
Args:
work_dir: 工作目录路径
pipeline: Pipeline 实例(未使用,保留接口兼容性)
"""
# 保存工作目录引用
if work_dir:
self.work_dir = work_dir
elif hasattr(self, 'work_dir') and self.work_dir:
pass # 保持现有工作目录
else:
self.work_dir = None
# 从 Step1 界面读取水域掩膜路径
main_window = self.window()
if hasattr(main_window, 'step1_panel'):
if main_window.step1_panel.use_ndwi_radio.isChecked():
# NDWI模式读取输出框的路径
mask_path = main_window.step1_panel.output_file.get_path()
else:
# 导入现有模式,读取输入框的路径
mask_path = main_window.step1_panel.mask_file.get_path()
if mask_path:
self.water_mask_file.set_path(mask_path)
# 自动填充输出路径(基于工作目录)
if self.work_dir:
output_dir = os.path.join(self.work_dir, "3_deglint")
os.makedirs(output_dir, exist_ok=True)
default_output_path = os.path.join(output_dir, "deglint_image.dat").replace('\\', '/')
self.output_file.set_path(default_output_path)
else:
self.output_file.set_path("")
def _on_method_changed(self, index):
"""方法改变时更新参数显示"""
method_id = self.method.currentData()
self.goodman_group.setVisible(method_id == 'goodman')
self.kutser_group.setVisible(method_id == 'kutser')
self.hedley_group.setVisible(method_id == 'hedley')
self.sugar_group.setVisible(method_id == 'sugar')
def get_config(self):
"""获取配置"""
config = {
'img_path': self.img_file.get_path(),
'method': self.method.currentData(), # 使用 currentData() 获取英文ID
'enabled': self.enable_checkbox.isChecked(),
'interpolate_zeros': self.interpolate_zeros.isChecked(),
'interpolation_method': self.interp_method.currentData(), # 使用 currentData()
}
water_mask_path = self.water_mask_file.get_path()
if water_mask_path:
config['water_mask'] = water_mask_path
output_path = self.output_file.get_path()
if output_path:
config['output_path'] = output_path
method = self.method.currentData() # 使用 currentData()
if method == 'goodman':
config['nir_lower'] = self.nir_lower.value()
config['nir_upper'] = self.nir_upper.value()
config['goodman_A'] = self.goodman_a.value()
config['goodman_B'] = self.goodman_b.value()
elif method == 'kutser':
config['oxy_band'] = self.oxy_band.value()
config['lower_oxy'] = self.lower_oxy.value()
config['upper_oxy'] = self.upper_oxy.value()
config['nir_band'] = self.nir_band.value()
elif method == 'hedley':
config['hedley_nir_band'] = self.hedley_nir_band.value()
elif method == 'sugar':
config['sugar_iter'] = self.sugar_iter.value() if self.sugar_iter.value() > 0 else None
config['sugar_sigma'] = self.sugar_sigma.value()
config['sugar_estimate_background'] = self.sugar_estimate_background.isChecked()
config['sugar_glint_mask_method'] = self.sugar_glint_mask_method.currentData()
config['sugar_termination_thresh'] = self.sugar_termination_thresh.value()
# 解析bounds字符串
try:
import ast
config['sugar_bounds'] = ast.literal_eval(self.sugar_bounds.text())
except:
config['sugar_bounds'] = [(1, 2)] # 默认值
return config
def set_config(self, config):
"""设置配置"""
if 'img_path' in config:
self.img_file.set_path(config['img_path'])
if 'water_mask' in config:
self.water_mask_file.set_path(config['water_mask'])
if 'output_path' in config:
self.output_file.set_path(config['output_path'])
if 'reference_csv' in config:
self.ref_csv_file.set_path(config['reference_csv'])
if 'method' in config:
idx = self.method.findData(config['method']) # 使用 findData()
if idx >= 0:
self.method.setCurrentIndex(idx)
if 'enabled' in config:
self.enable_checkbox.setChecked(config['enabled'])
if 'interpolate_zeros' in config:
self.interpolate_zeros.setChecked(config['interpolate_zeros'])
if 'interpolation_method' in config:
idx = self.interp_method.findData(config['interpolation_method']) # 使用 findData()
if idx >= 0:
self.interp_method.setCurrentIndex(idx)
# Goodman参数
if 'nir_lower' in config:
self.nir_lower.setValue(config['nir_lower'])
if 'nir_upper' in config:
self.nir_upper.setValue(config['nir_upper'])
if 'goodman_A' in config:
self.goodman_a.setValue(config['goodman_A'])
if 'goodman_B' in config:
self.goodman_b.setValue(config['goodman_B'])
# Kutser参数
if 'oxy_band' in config:
self.oxy_band.setValue(config['oxy_band'])
if 'lower_oxy' in config:
self.lower_oxy.setValue(config['lower_oxy'])
if 'upper_oxy' in config:
self.upper_oxy.setValue(config['upper_oxy'])
if 'nir_band' in config:
self.nir_band.setValue(config['nir_band'])
# Hedley参数
if 'hedley_nir_band' in config:
self.hedley_nir_band.setValue(config['hedley_nir_band'])
# SUGAR参数
if 'sugar_iter' in config:
self.sugar_iter.setValue(config['sugar_iter'] if config['sugar_iter'] is not None else 0)
if 'sugar_sigma' in config:
self.sugar_sigma.setValue(config['sugar_sigma'])
if 'sugar_estimate_background' in config:
self.sugar_estimate_background.setChecked(config['sugar_estimate_background'])
if 'sugar_glint_mask_method' in config:
idx = self.sugar_glint_mask_method.findData(config['sugar_glint_mask_method']) # 使用 findData()
if idx >= 0:
self.sugar_glint_mask_method.setCurrentIndex(idx)
if 'sugar_termination_thresh' in config:
self.sugar_termination_thresh.setValue(config['sugar_termination_thresh'])
if 'sugar_bounds' in config:
self.sugar_bounds.setText(str(config['sugar_bounds']))
def run_step(self):
"""独立运行步骤3"""
# 验证输入
img_path = self.img_file.get_path()
if not img_path:
QMessageBox.warning(self, "输入错误", "请选择影像文件!")
return
if self.enable_checkbox.isChecked():
water_mask_path = self.water_mask_file.get_path()
if not water_mask_path:
QMessageBox.warning(
self,
"输入错误",
"独立运行耀斑去除时,必须选择水域掩膜或边界文件。\n\n"
"请提供与当前影像空间一致的水域栅格掩膜(.dat/.tif或水域矢量边界.shp\n"
"若刚跑过完整流程可使用步骤1生成的水域掩膜文件。",
)
return
# 获取主窗口并运行步骤
main_window = self.window()
if hasattr(main_window, 'run_single_step'):
config = {'step3': self.get_config()}
main_window.run_single_step('step3', config)