[ENH] time_histogram handles single neo.SpikeTrain

elephant/statistics.py

@@ -74,7 +74,7 @@
 import scipy.signal
 from numpy import ndarray
 from scipy.special import erf
-from typing import Union
+from typing import List, Optional, Union
 
 import elephant.conversion as conv
 import elephant.kernels as kernels
@@ -1062,46 +1062,51 @@ def optimal_kernel(st):
 
 
 @deprecated_alias(binsize='bin_size')
-def time_histogram(spiketrains, bin_size, t_start=None, t_stop=None,
-                   output='counts', binary=False):
+def time_histogram(spiketrains: Union[List[neo.SpikeTrain], neo.SpikeTrain],
+                   bin_size: pq.Quantity,
+                   t_start: Optional[pq.Quantity] = None,
+                   t_stop: Optional[pq.Quantity] = None,
+                   output: str = 'counts',
+                   binary: bool = False) -> neo.AnalogSignal:
     """
-    Time Histogram of a list of `neo.SpikeTrain` objects.
+    Time Histogram of a list of :class:`neo.core.SpikeTrain` objects.
 
     Visualization of this function is covered in Viziphant:
     :func:`viziphant.statistics.plot_time_histogram`.
 
     Parameters
     ----------
-    spiketrains : list of neo.SpikeTrain
-        `neo.SpikeTrain`s with a common time axis (same `t_start` and `t_stop`)
+    spiketrains : list of :class:`neo.core.SpikeTrain` or :class:`neo.core.SpikeTrain`
+        `neo.SpikeTrain` objects with a common time axis (same `t_start` and `t_stop`)
     bin_size : pq.Quantity
         Width of the histogram's time bins.
     t_start : pq.Quantity, optional
         Start time of the histogram. Only events in `spiketrains` falling
         between `t_start` and `t_stop` (both included) are considered in the
         histogram.
-        If None, the maximum `t_start` of all `neo.SpikeTrain`s is used as
+        If None, the maximum `t_start` of all :class:`neo.core.SpikeTrain`s is used as
         `t_start`.
         Default: None
     t_stop : pq.Quantity, optional
         Stop time of the histogram. Only events in `spiketrains` falling
         between `t_start` and `t_stop` (both included) are considered in the
         histogram.
-        If None, the minimum `t_stop` of all `neo.SpikeTrain`s is used as
+        If None, the minimum `t_stop` of all :class:`neo.core.SpikeTrain` s is used as
         `t_stop`.
         Default: None
     output : {'counts', 'mean', 'rate'}, optional
         Normalization of the histogram. Can be one of:
-        *  'counts': spike counts at each bin (as integer numbers).
-        *  'mean': mean spike counts per spike train.
-        *  'rate': mean spike rate per spike train. Like 'mean', but the
-        counts are additionally normalized by the bin width.
+
+        - 'counts': spike counts at each bin (as integer numbers).
+        - 'mean': mean spike counts per spike train.
+        - 'rate': mean spike rate per spike train. Like 'mean', but the counts are additionally normalized
+          by the bin width.
 
         Default: 'counts'
     binary : bool, optional
-        If True, indicates whether all `neo.SpikeTrain` objects should first
+        If True, indicates whether all :class:`neo.core.SpikeTrain` objects should first
         be binned to a binary representation (using the
-        `conversion.BinnedSpikeTrain` class) and the calculation of the
+        [:class:`elephant.conversion.BinnedSpikeTrain` class] and the calculation of the
         histogram is based on this representation.
         Note that the output is not binary, but a histogram of the converted,
         binary representation.
@@ -1110,8 +1115,8 @@ def time_histogram(spiketrains, bin_size, t_start=None, t_stop=None,
     Returns
     -------
     neo.AnalogSignal
-        A `neo.AnalogSignal` object containing the histogram values.
-        `neo.AnalogSignal[j]` is the histogram computed between
+        A :class:`neo.core.SpikeTrain` object containing the histogram values.
+        :class:`neo.core.SpikeTrain `[j]` is the histogram computed between
         `t_start + j * bin_size` and `t_start + (j + 1) * bin_size`.
 
     Raises
@@ -1129,7 +1134,7 @@ def time_histogram(spiketrains, bin_size, t_start=None, t_stop=None,
 
     See also
     --------
-    elephant.conversion.BinnedSpikeTrain
+    :func:`elephant.conversion.BinnedSpikeTrain`
 
     Examples
     --------
@@ -1178,17 +1183,17 @@ def time_histogram(spiketrains, bin_size, t_start=None, t_stop=None,
 
     def _counts() -> pq.Quantity:
         # 'counts': spike counts at each bin (as integer numbers).
-        return pq.Quantity(bin_hist, units=pq.dimensionless, copy=False)
+        return pq.Quantity(bin_hist, units=pq.dimensionless)
 
     def _mean() -> pq.Quantity:
         # 'mean': mean spike counts per spike train.
-        return pq.Quantity(bin_hist / len(spiketrains),
-                           units=pq.dimensionless, copy=False)
+        return pq.Quantity(bin_hist / binned_spiketrain.shape[0],
+                           units=pq.dimensionless)
 
     def _rate() -> pq.Quantity:
         # 'rate': mean spike rate per spike train. Like 'mean', but the
         #         counts are additionally normalized by the bin width.
-        return bin_hist / (len(spiketrains) * bin_size)
+        return bin_hist / (binned_spiketrain.shape[0] * bin_size)
 
     output_mapping = {"counts": _counts, "mean": _mean, "rate": _rate}
     try:

elephant/test/test_statistics.py

@@ -1089,6 +1089,18 @@ def test_annotations(self):
             self.assertIn('normalization', histogram.annotations)
             self.assertEqual(histogram.annotations['normalization'], output)
 
+    def test_time_histogram_regression_648_single_spiketrain(self):
+        # Create a single spike train
+        spiketrain = neo.SpikeTrain([0.1, 0.5, 1.0, 1.5, 2.0] * pq.s, t_stop=3.0 * pq.s)
+
+        # Run time_histogram with spiketrain directly and observe the incorrect result
+        histogram_direct = statistics.time_histogram(spiketrain, output='rate', bin_size=0.5 * pq.s)
+        print("Histogram (direct):", histogram_direct)
+
+        # Wrap spiketrain in a list and run time_histogram
+        histogram_wrapped = statistics.time_histogram([spiketrain], output='rate', bin_size=0.5 * pq.s)
+        np.testing.assert_array_equal(histogram_direct.magnitude, histogram_wrapped.magnitude)
+
 
 class ComplexityTestCase(unittest.TestCase):
     def test_complexity_pdf_deprecated(self):