diff --git a/piscat/GUI/Projects/iPSF/iPSF_model.py b/piscat/GUI/Projects/iPSF/iPSF_model.py index 4633d6a..64819a1 100644 --- a/piscat/GUI/Projects/iPSF/iPSF_model.py +++ b/piscat/GUI/Projects/iPSF/iPSF_model.py @@ -21,121 +21,145 @@ def __init__(self, parent=None): self.empty_value_ModelBox_flag = True self.wavelength = QtWidgets.QLineEdit() - self.wavelength.setPlaceholderText("Wavelength in meters") + self.wavelength.setToolTip('Wavelength of the light source in meters') + self.wavelength.setPlaceholderText("Wavelength of the light source in meters") self.wavelength_label = QtWidgets.QLabel("wavelength:") self.wavelength.setFixedWidth(150) self.NA = QtWidgets.QLineEdit() - self.NA.setPlaceholderText("objective lens") + self.NA.setToolTip('Numerical Aperture (NA) of the objective lens') + self.NA.setPlaceholderText("Numerical Aperture (NA) of the objective lens") self.NA_label = QtWidgets.QLabel("Numerical Aperture (NA):") self.NA.setFixedWidth(150) self.ti0 = QtWidgets.QLineEdit() - self.ti0.setPlaceholderText("nominal value in meters") - self.ti0_label = QtWidgets.QLabel("Thickness of the immersion oil:") + self.ti0.setToolTip('Thickness of the immersion oil, nominal value in meters') + self.ti0.setPlaceholderText("Thickness of the immersion oil, nominal value in meters") + self.ti0_label = QtWidgets.QLabel("Thickness:") self.ti0.setFixedWidth(150) self.ni0 = QtWidgets.QLineEdit() - self.ni0.setPlaceholderText("nominal value") - self.ni0_label = QtWidgets.QLabel("Refractive index of the immersion oil:") + self.ni0.setToolTip('Refractive index of the immersion oil, nominal value') + self.ni0.setPlaceholderText("Refractive index of the immersion oil, nominal value") + self.ni0_label = QtWidgets.QLabel("Refractive index:") self.ni0.setFixedWidth(150) self.ni = QtWidgets.QLineEdit() - self.ni.setPlaceholderText("experimental value") - self.ni_label = QtWidgets.QLabel("Refractive index of the immersion oil:") + self.ni.setToolTip('Refractive index of the immersion oil, experimental value') + self.ni.setPlaceholderText("Refractive index of the immersion oil, experimental value") + self.ni_label = QtWidgets.QLabel("Refractive index:") self.ni.setFixedWidth(150) self.tg0 = QtWidgets.QLineEdit() - self.tg0.setPlaceholderText("nominal value in meters") - self.tg0_label = QtWidgets.QLabel("Thickness of the coverglass:") + self.tg0.setToolTip('Thickness of the coverglass, nominal value in meters') + self.tg0.setPlaceholderText("Thickness of the coverglass, nominal value in meters") + self.tg0_label = QtWidgets.QLabel("Thickness:") self.tg0.setFixedWidth(150) self.tg = QtWidgets.QLineEdit() - self.tg.setPlaceholderText("experimental value in meters") - self.tg_label = QtWidgets.QLabel("Thickness of the coverglass:") + self.tg.setToolTip('Thickness of the coverglass, experimental value in meters') + self.tg.setPlaceholderText("Thickness of the coverglass, experimental value in meters") + self.tg_label = QtWidgets.QLabel("Thickness:") self.tg.setFixedWidth(150) self.ng0 = QtWidgets.QLineEdit() - self.ng0.setPlaceholderText("nominal value") - self.ng0_label = QtWidgets.QLabel("Refractive index of the coverglass:") + self.ng0.setToolTip('Refractive index of the coverglass, nominal value') + self.ng0.setPlaceholderText("Refractive index of the coverglass, nominal value") + self.ng0_label = QtWidgets.QLabel("Refractive index:") self.ng0.setFixedWidth(150) self.ng = QtWidgets.QLineEdit() - self.ng.setPlaceholderText("experimental value") - self.ng_label = QtWidgets.QLabel("Refractive index of the coverglass:") + self.ng.setToolTip('Refractive index of the coverglass, experimental value') + self.ng.setPlaceholderText("Refractive index of the coverglass, experimental value") + self.ng_label = QtWidgets.QLabel("Refractive index:") self.ng.setFixedWidth(150) self.ns = QtWidgets.QLineEdit() - self.ns.setPlaceholderText("sample/medium") - self.ns_label = QtWidgets.QLabel("Refractive index of the sample/medium:") + self.ns.setToolTip('Refractive index of the sample/medium') + self.ns.setPlaceholderText("Refractive index of the sample/medium") + self.ns_label = QtWidgets.QLabel("Refractive index:") self.ns.setFixedWidth(150) self.pixel_size_physical = QtWidgets.QLineEdit() - self.pixel_size_physical.setPlaceholderText("camera pixel in meters") - self.pixel_size_physical_label = QtWidgets.QLabel("Physical size of the camera pixel:") + self.pixel_size_physical.setToolTip('Physical size of the camera pixel in meters') + self.pixel_size_physical.setPlaceholderText("Physical size of the camera pixel in meters") + self.pixel_size_physical_label = QtWidgets.QLabel("Pixel size:") self.pixel_size_physical.setFixedWidth(150) self.pixel_size = QtWidgets.QLineEdit() - self.pixel_size.setPlaceholderText("pixel size through the magnification of the setup") - self.pixel_size_label = QtWidgets.QLabel("Imaging pixel size:") + self.pixel_size.setToolTip('Imaging pixel size in meters, related to the physical pixel size through the magnification of the setup') + self.pixel_size.setPlaceholderText("Imaging pixel size in meters, related to the physical pixel size through the magnification of the setup") + self.pixel_size_label = QtWidgets.QLabel("Pixel size:") self.pixel_size.setFixedWidth(150) self.s_range = QtWidgets.QLineEdit() + self.s_range.setToolTip('The starting range across which the focus is swept') self.s_range.setPlaceholderText("focus start point in meter") self.s_range_label = QtWidgets.QLabel("focus is swept start point:") self.s_range.setFixedWidth(150) self.e_range = QtWidgets.QLineEdit() + self.e_range.setToolTip('The ending range across which the focus is swept') self.e_range.setPlaceholderText("focus end point in meter") self.e_range_label = QtWidgets.QLabel("focus is swept end point:") self.e_range.setFixedWidth(150) self.step_range = QtWidgets.QLineEdit() + self.step_range.setToolTip('The stride across which the focus is swept') self.step_range.setPlaceholderText("step in meter") self.step_range_label = QtWidgets.QLabel("focus is swept step:") self.step_range.setFixedWidth(150) self.s_range_particle = QtWidgets.QLineEdit() + self.s_range_particle.setToolTip('The starting axial range across which the particle is travelling') self.s_range_particle.setPlaceholderText("particle start point in meter") self.s_range_label_particle = QtWidgets.QLabel("particle is swept start point:") self.s_range_particle.setFixedWidth(150) self.e_range_particle = QtWidgets.QLineEdit() + self.e_range_particle.setToolTip('The ending axial range across which the particle is travelling') self.e_range_particle.setPlaceholderText("particle end point in meter") self.e_range_label_particle = QtWidgets.QLabel("particle is swept end point:") self.e_range_particle.setFixedWidth(150) self.step_range_particle = QtWidgets.QLineEdit() + self.step_range_particle.setToolTip('The stride of axial across which the particle is travelling') self.step_range_particle.setPlaceholderText("step in meter") self.step_range_label_particle = QtWidgets.QLabel("particle is swept step:") self.step_range_particle.setFixedWidth(150) self.z_focus_particle = QtWidgets.QLineEdit() - self.z_focus_particle.setPlaceholderText("position of the focal plane") - self.z_focus_label_particle = QtWidgets.QLabel("position of the focal plane:") + self.z_focus_particle.setToolTip('The position of the focal plane') + self.z_focus_particle.setPlaceholderText("The position of the focal plane") + self.z_focus_label_particle = QtWidgets.QLabel("The position of the focal plane:") self.z_focus_particle.setFixedWidth(150) self.position_particle3D = QtWidgets.QLineEdit() + self.position_particle3D.setToolTip('The 3D position of the nanoparticle') self.position_particle3D.setPlaceholderText("[x, y, z]") self.position_particle3D_label = QtWidgets.QLabel("The 3D position of the nanoparticle:") self.position_particle3D.setFixedWidth(150) self.nx = QtWidgets.QLineEdit() + self.nx.setToolTip('Number of lateral pixels over which the image is calculated') self.nx.setPlaceholderText("pixels") self.nx_label = QtWidgets.QLabel("Number of lateral pixels over which the image is calculated :") self.nx.setFixedWidth(150) self.nx_particle = QtWidgets.QLineEdit() + self.nx_particle.setToolTip('Number of lateral pixels over which the image is calculated') self.nx_particle.setPlaceholderText("pixels") self.nx_label_particle = QtWidgets.QLabel("Number of lateral pixels over which the image is calculated :") self.nx_particle.setFixedWidth(150) self.r_ = QtWidgets.QLineEdit() + self.r_.setToolTip('Number of lateral pixels over which the calculated image is cropped') self.r_.setPlaceholderText("pixels") self.r_label = QtWidgets.QLabel("Number of lateral pixels over which the calculated image is cropped:") self.r_.setFixedWidth(150) self.r_particle = QtWidgets.QLineEdit() + self.r_particle.setToolTip('Number of lateral pixels over which the calculated image is cropped') self.r_particle.setPlaceholderText("pixels") self.r_label_particle = QtWidgets.QLabel("Number of lateral pixels over which the calculated image is cropped:") self.r_particle.setFixedWidth(150) diff --git a/piscat/__init__.py b/piscat/__init__.py index 132a66f..5be2fdf 100644 --- a/piscat/__init__.py +++ b/piscat/__init__.py @@ -1 +1 @@ -version = '0.1.22' \ No newline at end of file +version = '0.1.23' \ No newline at end of file