{stageoption}
""".format(
id=self.id,
classes=self.input_classes(errors),
value=display_value,
label=self.label,
options=self.render_options(value),
stageoption="" if self.gain_stages is None else self.render_stage_option(value, errors),
disabled="disabled" if self.disabled else "",
)
def render_input_group(self, value, errors):
return """
{input}
{errors}
""".format(
id=self.id, input=self.render_input(value, errors), errors=self.render_errors(errors)
)
def render_options(self, value):
options = []
if self.has_agc:
options.append(("auto", "Enable hardware AGC"))
options.append(("manual", "Specify manual gain")),
if self.gain_stages:
options.append(("stages", "Specify gain stages individually"))
mode = self.getMode(value)
return "".join(
"""
""".format(
value=v[0], text=v[1], selected="selected" if mode == v[0] else ""
)
for v in options
)
def getMode(self, value):
if value is None:
return "auto" if self.has_agc else "manual"
if value == "auto":
return "auto"
try:
float(value)
return "manual"
except (ValueError, TypeError):
pass
return "stages"
def render_stage_option(self, value, errors):
try:
value_dict = {k: v for item in SoapySettings.parse(value) for k, v in item.items()}
except (AttributeError, ValueError):
value_dict = {}
return """
{inputs}
""".format(
inputs="".join(
"""
""".format(
id=self.id,
stage=stage,
value=value_dict[stage] if stage in value_dict else "",
classes=self.input_classes(errors),
disabled="disabled" if self.disabled else "",
)
for stage in self.gain_stages
)
)
def parse(self, data):
def getStageValue(stage):
input_id = "{id}-{stage}".format(id=self.id, stage=stage)
if input_id in data:
return data[input_id][0]
else:
return None
select_id = "{id}-select".format(id=self.id)
if select_id in data:
if self.has_agc and data[select_id][0] == "auto":
return {self.id: "auto"}
if data[select_id][0] == "manual":
input_id = "{id}-manual".format(id=self.id)
value = 0.0
if input_id in data:
try:
value = float(data[input_id][0])
except ValueError:
pass
return {self.id: value}
if self.gain_stages is not None and data[select_id][0] == "stages":
settings_dict = [{s: getStageValue(s)} for s in self.gain_stages]
# filter out empty ones
settings_dict = [s for s in settings_dict if next(iter(s.values()))]
return {self.id: SoapySettings.encode(settings_dict)}
return {}
class BiasTeeInput(CheckboxInput):
def __init__(self):
super().__init__("bias_tee", "Enable Bias-Tee power supply")
class DirectSamplingOptions(DropdownEnum):
DIRECT_SAMPLING_OFF = (0, "Off")
DIRECT_SAMPLING_I = (1, "Direct Sampling (I branch)")
DIRECT_SAMPLING_Q = (2, "Direct Sampling (Q branch)")
def __new__(cls, *args, **kwargs):
value, description = args
obj = object.__new__(cls)
obj._value_ = value
obj.description = description
return obj
def __str__(self):
return self.description
class DirectSamplingInput(DropdownInput):
def __init__(self):
super().__init__(
"direct_sampling",
"Direct Sampling",
DirectSamplingOptions,
)
class RemoteInput(TextInput):
def __init__(self):
super().__init__(
"remote", "Remote IP and Port", infotext="Remote hostname or IP and port to connect to. Format = IP:Port"
)
class SchedulerInput(Input):
def __init__(self, id, label):
super().__init__(id, label)
self.profiles = {}
def render(self, config, errors):
if "profiles" in config:
self.profiles = config["profiles"]
return super().render(config, errors)
def render_profiles_select(self, value, errors, config_key, stage, extra_classes="", allow_empty=False):
stage_value = ""
if value and "schedule" in value and config_key in value["schedule"]:
stage_value = value["schedule"][config_key]
options = "".join(
"""
""".format(
id=p_id,
name=p["name"],
selected="selected" if stage_value == p_id else "",
)
for p_id, p in self.profiles.items()
)
if allow_empty:
# prepend a special "off" option to allow a schedule slot to go unused (daylight scheduler)
options = """""".format(
selected="selected" if value is None else ""
) + options
return """
""".format(
id="{}-{}".format(self.id, stage),
classes=self.input_classes(errors),
extra_classes=extra_classes,
disabled="disabled" if self.disabled else "",
options=options,
)
def render_static_entires(self, value, errors):
def render_time_inputs(v):
values = ["{}:{}".format(x[0:2], x[2:4]) for x in [v[0:4], v[5:9]]]
return '
-
'.join(
"""
""".format(
id="{}-{}-{}".format(self.id, "time", "start" if i == 0 else "end"),
classes=self.input_classes(errors),
disabled="disabled" if self.disabled else "",
value=v,
)
for i, v in enumerate(values)
)
schedule = {"0000-0000": ""}
if value is not None and value and "schedule" in value and "type" in value and value["type"] == "static":
schedule = value["schedule"]
rows = "".join(
"""
{time_inputs}
{select}
""".format(
time_inputs=render_time_inputs(slot),
select=self.render_profiles_select(value, errors, slot, "profile"),
)
for slot, entry in schedule.items()
)
return """
{rows}
""".format(
name=name,
select=self.render_profiles_select(
value, errors, stage, stage, extra_classes="col-9", allow_empty=True
),
)
for stage, name in [("day", "Day"), ("night", "Night"), ("greyline", "Greyline")]
)
def render_input(self, value, errors):
return """
{entries}
{stages}
""".format(
id=self.id,
classes=self.input_classes(errors),
disabled="disabled" if self.disabled else "",
options=self.render_options(value),
entries=self.render_static_entires(value, errors),
stages=self.render_daylight_entries(value, errors),
)
def _get_mode(self, value):
if value is not None and "type" in value:
return value["type"]
return ""
def render_options(self, value):
options = [
("static", "Static scheduler"),
("daylight", "Daylight scheduler"),
]
mode = self._get_mode(value)
return "".join(
"""
""".format(
value=value, name=name, selected="selected" if mode == value else ""
)
for value, name in options
)
def parse(self, data):
def getStageValue(stage):
input_id = "{id}-{stage}".format(id=self.id, stage=stage)
if input_id in data:
# special treatment for the "off" option
if data[input_id][0] == "None":
return None
return data[input_id][0]
else:
return None
select_id = "{id}-select".format(id=self.id)
if select_id in data:
if data[select_id][0] == "static":
keys = ["{}-{}".format(self.id, x) for x in ["time-start", "time-end", "profile"]]
keys_present = reduce(and_, [key in data for key in keys], True)
if not keys_present:
return {}
lists = [data[key] for key in keys]
settings_dict = {
"{}{}-{}{}".format(start[0:2], start[3:5], end[0:2], end[3:5]): profile
for start, end, profile in zip(*lists)
}
return {self.id: {"type": "static", "schedule": settings_dict}}
elif data[select_id][0] == "daylight":
settings_dict = {s: getStageValue(s) for s in ["day", "night", "greyline"]}
# filter out empty ones
settings_dict = {s: v for s, v in settings_dict.items() if v}
return {self.id: {"type": "daylight", "schedule": settings_dict}}
return {}
class WaterfallLevelsInput(Input):
def __init__(self, id, label, infotext=None):
super().__init__(id, label, infotext=infotext)
def render_input_group(self, value, errors):
return """
""".format(
id=self.id,
name=name,
label=label,
value=value[name] if value and name in value else "0",
classes=self.input_classes(errors),
disabled="disabled" if self.disabled else "",
unit=self.getUnit(),
)
for name, label in self.getFields().items()
)
def parse(self, data):
def getValue(name):
key = "{}-{}".format(self.id, name)
if key in data:
return {name: float(data[key][0])}
raise KeyError("waterfall key not found")
try:
return {self.id: {k: v for name in ["min", "max"] for k, v in getValue(name).items()}}
except KeyError:
return {}
class WaterfallAutoLevelsInput(WaterfallLevelsInput):
def getUnit(self):
return "dB"
def getFields(self):
return {"min": "Lower", "max": "Upper"}