siriushla.as_ap_sofb.graphics

Code Documentation

siriushla.as_ap_sofb.graphics.base module

Control the Orbit Graphic Displnay.

class siriushla.as_ap_sofb.graphics.base.BaseWidget(parent, device, ctrls, names, is_orb, prefix='', acc='SI')[source]

Bases: QWidget

.

DEFAULT_DIR = '/home/sirius/shared/screens-iocs'

property acc: .

property acc_idx: .

channels()[source]: .

connect_signals()[source]: .

property isring: .

setupui()[source]: .

uicreate_combobox(parent, orb_tp, idx)[source]: .

uicreate_groupbox(idx)[source]: .

uicreate_label(lab, parent)[source]: .

uigetgraph(pln, size)[source]: .

class siriushla.as_ap_sofb.graphics.base.Graph(*args, **kwargs)[source]

Bases: SiriusWaveformPlot

.

doubleclick

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

mouseDoubleClickEvent(ev)[source]: .

class siriushla.as_ap_sofb.graphics.base.InfLine(conv=1, pos=None, **kwargs)[source]

Bases: InfiniteLine

.

setValue(value)[source]: .

class siriushla.as_ap_sofb.graphics.base.Label(unit, *args, **kwargs)[source]

Bases: QLabel

.

FMT = '{0:.2f}'

setFloat(val)[source]: .

class siriushla.as_ap_sofb.graphics.base.UpdateGraph(ctrls, is_orb, acc='SI')[source]

Bases: QObject

Worker to update graphics.

UNIT = 1e-06

ave_mstdx

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ave_mstdy

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ave_pstdx

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ave_pstdy

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

avex

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

avey

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

data_sigx

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

data_sigy

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

p2px

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

p2py

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ref_sigx

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ref_sigy

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

set_enbl_list(pln, enbls)[source]: .

set_visible(boo)[source]: .

some_changed(orb_tp, text)[source]: .

stdx

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

stdy

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

update_graphic(pln=None)[source]: .

siriushla.as_ap_sofb.graphics.correctors module

Control the Correctors Graphic Displnay.

class siriushla.as_ap_sofb.graphics.correctors.CorrectorsWidget(parent, device, prefix='', ctrls={}, acc='SI')[source]

Bases: BaseWidget

add_RF_kicks()[source]

add_kicklimits_curves()[source]

channels()[source]: .

static get_default_ctrls(device, prefix='')[source]

siriushla.as_ap_sofb.graphics.orbit module

Control the Orbit Graphic Displnay.

class siriushla.as_ap_sofb.graphics.orbit.MultiTurnSumWidget(parent, device, prefix='', orbtype='sum', csorb=None)[source]

Bases: QWidget

.

mouseDoubleClickEvent(ev)[source]: .

ratio_sum_avg

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

ratio_sum_std

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

setupui()[source]: .

update_graph(data)[source]: .

class siriushla.as_ap_sofb.graphics.orbit.MultiTurnWidget(parent, sigs, device, prefix, csorb)[source]

Bases: QWidget

.

hideEvent(_)[source]: .

setreforbits(pln, orb)[source]: .

setupui()[source]: .

showEvent(_)[source]: .

class siriushla.as_ap_sofb.graphics.orbit.OrbitWidget(parent, device, prefix='', ctrls=None, acc='SI')[source]

Bases: BaseWidget

.

add_buttons_for_images()[source]: .

channels()[source]: .

static get_default_ctrls(device, prefix='', acc='SI')[source]: .

class siriushla.as_ap_sofb.graphics.orbit.SinglePassSumWidget(parent, device, csorb, prefix='')[source]

Bases: QWidget

.

setupui()[source]: .

class siriushla.as_ap_sofb.graphics.orbit.Spectrogram(device, prefix='', **kwargs)[source]

Bases: SiriusSpectrogramView

.

channels()[source]: .

mouseDoubleClickEvent(ev)[source]: .

new_data_sig

int = …, arguments: Sequence = …) -> PYQT_SIGNAL

types is normally a sequence of individual types. Each type is either a type object or a string that is the name of a C++ type. Alternatively each type could itself be a sequence of types each describing a different overloaded signal. name is the optional C++ name of the signal. If it is not specified then the name of the class attribute that is bound to the signal is used. revision is the optional revision of the signal that is exported to QML. If it is not specified then 0 is used. arguments is the optional sequence of the names of the signal’s arguments.

Type:: pyqtSignal(*types, name
Type:: str = …, revision

process_image(img)[source]: .

setreforbit(orb)[source]: .

siriushla.as_ap_sofb.graphics.respmat module

Control the Orbit Graphic Display.

class siriushla.as_ap_sofb.graphics.respmat.ShowMatrixWidget(parent, device, acc, prefix='')[source]

Bases: QWidget

setupui()[source]

class siriushla.as_ap_sofb.graphics.respmat.SingularValues(parent, device, prefix='')[source]

Bases: QWidget

setValue(line, value)[source]

setupui()[source]

siriushla.as_ap_sofb.graphics

Code Documentation

siriushla.as_ap_sofb.graphics.base module

siriushla.as_ap_sofb.graphics.correctors module

siriushla.as_ap_sofb.graphics.orbit module

siriushla.as_ap_sofb.graphics.respmat module

Module contents