Simu: Let Signal have default final positions

2024-11-13 01:53:31 +01:00 · 2022-04-08 15:16:12 +02:00 · 2022-04-08 15:16:12 +02:00 · c6d527a307
commit c6d527a307
parent 80710bee23
2 changed files with 59 additions and 18 deletions
--- a/simulations/lib/signals/digitisedsignal.py
+++ b/simulations/lib/signals/digitisedsignal.py
@ -1,4 +1,5 @@
 #!/usr/bin/env python3
+
 import numpy as np
 import scipy.interpolate as interp

@ -14,7 +15,7 @@ class DigitisedSignal(Signal):
    Model an arbitrary digitised signal that can be translated to another position and time.
    """

-    def __init__(self, signal, sample_rate, t_0 = 0, x_0 = 0, periodic=True, interp1d_kw = None, velocity=None):
+    def __init__(self, signal, sample_rate, t_0 = 0, x_0 = 0, periodic=True, interp1d_kw = None, velocity=None, t_f = None, x_f = None):
        """
        Initialise by saving the raw signal

@ -37,8 +38,12 @@ class DigitisedSignal(Signal):
            Dictionary will be entered in as **kwargs.
        velocity : float, optional
            Defaults to the speed of light in m/s.
+        t_f : float, optional
+            Default time that this signal is received.
+        x_f : float, optional
+            Default Location that this signal is received.
        """
-        super().__init__(t_0=t_0, x_0=x_0, velocity=velocity)
+        super().__init__(t_0=t_0, x_0=x_0, velocity=velocity, t_f=t_f, x_f=x_f)

        self.raw = np.asarray(signal)
        self.periodic = periodic
--- a/simulations/lib/signals/signal.py
+++ b/simulations/lib/signals/signal.py
@ -11,7 +11,7 @@ class Signal():

    Super object, cannot be used directly.
    """
-    def __init__(self, t_0 = 0, x_0 = 0, velocity=None):
+    def __init__(self, t_0 = 0, x_0 = 0, velocity=None, t_f = None, x_f = None):
        """
        Parameters
        ----------
@ -21,12 +21,27 @@ class Signal():
            Location that this signal is sent out from.
        velocity : float, optional
            Defaults to the speed of light in m/s.
+        t_f : float, optional
+            Default time that this signal is received.
+        x_f : float, optional
+            Default Location that this signal is received.
        """
+        if t_0 is None:
+            raise ValueError("t_0 cannot be None")
+        if x_0 is None:
+            raise ValueError("x_0 cannot be None")
+
+        self.x_0 = np.asarray(x_0) # m
+        self.t_0 = np.asarray(t_0) # s

        self.velocity = 299792458 if velocity is None else velocity # m / s

-        self.x_0 = x_0 # m
-        self.t_0 = t_0 # s
+        # Default final positions
+        t_f = np.asarray(t_f) if t_f is not None else None
+        x_f = np.asarray(x_f) if x_f is not None else None
+
+        self.x_f = x_f
+        self.t_f = t_f

    def __call__(self, t_f = None, x_f = None, **kwargs):
        """
@ -43,7 +58,7 @@ class Signal():

        raise NotImplementedError

-    def spatial_time_offset(self, x_f, x_0=None, velocity=None):
+    def spatial_time_offset(self, x_f=None, x_0=None, velocity=None):
        """
        Calculate the time offset caused by a spatial distance.
        """
@ -52,15 +67,27 @@ class Signal():

        if x_0 is None:
            x_0 = self.x_0
+        if x_f is None:
+            x_f = self.x_f
+
+        ## make sure they are arrays
+        x_0 = np.asarray(x_0) if x_0 is not None else None
+        x_f = np.asarray(x_f) if x_f is not None else None

        return np.sqrt( np.sum((x_f - x_0)**2, axis=-1) )/velocity

-    def temporal_time_offset(self, t_f, t_0=None):
+    def temporal_time_offset(self, t_f=None, t_0=None):
        """
        Calculate the time offset caused by a temporal distance.
        """
        if t_0 is None:
            t_0 = self.t_0
+        if t_f is None:
+            t_f = self.t_f
+
+        ## make sure they are arrays
+        t_0 = np.asarray(t_0) if t_0 is not None else None
+        t_f = np.asarray(t_f) if t_f is not None else None

        return t_f - t_0

@ -76,26 +103,35 @@ class Signal():
        Returns:
         the time shift
        """
+        # Get default values
+        ## starting point
+        if t_0 is None:
+            t_0 = self.t_0
+        if x_0 is None:
+            x_0 = self.x_0

-        ## spatial offset
+        ## final point
+        if x_f is None:
+            x_f = self.x_f
+        if t_f is None:
+            t_f = self.t_f
+
+        ## make sure they are arrays
+        t_0 = np.asarray(t_0) if t_0 is not None else None
+        x_0 = np.asarray(x_0) if x_0 is not None else None
+        t_f = np.asarray(t_f) if t_f is not None else None
+        x_f = np.asarray(x_f) if x_f is not None else None
+
+        # spatial offset
        if x_f is None:
            spatial_time_offset = 0
        else:
-            x_f = np.asarray(x_f)
-            if x_0 is None:
-                x_0 = self.x_0
-
            spatial_time_offset = self.spatial_time_offset(x_f, x_0=x_0, velocity=velocity)

-        ## temporal offset
+        # temporal offset
        if t_f is None:
            temporal_time_offset = 0
        else:
-            t_f = np.asarray(t_f)
-
-            if t_0 is None:
-                t_0 = self.t_0
-
            temporal_time_offset = self.temporal_time_offset(t_f, t_0=t_0)

        return temporal_time_offset - spatial_time_offset