* Updated more documentation

* Fixes #4
2014-12-15 14:00:22 +00:00 · 2014-12-15 14:00:22 +00:00 · 31d809a618
commit 31d809a618
parent 7f6839479c
1 changed files with 29 additions and 22 deletions
--- a/src/experiments/Experiment.py
+++ b/src/experiments/Experiment.py
@ -169,7 +169,9 @@ class Experiment:
    # @param ttls Additional ttl channels
    def record(self, samples, frequency, timelength=None, sensitivity = None, ttls=None, channels = 3, offset = None, impedance = None):
        """
-        Records  data with given number of samples, sampling frequency and sensitivity
+        Records  data with given number of samples, sampling frequency and sensitivity.
+        Optionally, the time length of this state can be specified. If not specified **timelength** is
+        deduced from **samples**/**frequency**:

        :param int samples: Number of samples to record
        :param float frequency: Sampling frequency
@ -265,6 +267,7 @@ class Experiment:
        if ttls != 0:
            s_content += '<ttlout value="0x%06x"/>' % ttls
        self.state_list.append(StateSimple(2e-6, s_content))
+
    ## Creates a, possibly shaped, pulsed gradient.
    # @param dac_value DAC value to set
    # @param length Duration of the state, minimum length is 42*90ns=3.78us (default)
@ -275,13 +278,15 @@ class Experiment:
        """
        This sets the value for the PFG, it also sets it back automatically.
        If you don't whish to do so (i.e. line shapes)  set is_seq=1
-        If you wnat to set a trigger, set trigger (default=4, i.e. channel 2)
+        If you want to set a trigger, set trigger (default=4, i.e. channel 2)
        If you want shaped gradients: shape=(ashape, resolution), ashape can be rec, sin2, sin

+        The default DAC ID is hardcoded (id=1)!
+
        :param int dac_value: DAC value to set
        :param float length: Duration of the state, minimum length is 42*90ns=3.78us (default)
-        :param str shape: Tuple of (shape, resolution/seconds), shape can be one of: rec (default), sin2, sin
-        :param bool is_seq: If set to *True*, do NOT set DAC to zero after this state
+        :param tuple shape: Tuple of (shape, resolution/seconds), shape can be one of: rec (default), sin2, sin
+        :param bool is_seq: If set to *True*, do *NOT* set DAC to zero at the end of this state
        :param int trigger: default=4, lines to set (integer)
        """
        try:
@ -294,7 +299,6 @@ class Experiment:
            length=42*9e-8
        if resolution >= length:
            raise ValueError, "Resolution %.3e of shaped gradients can not be longer than total length %.3e"%(resolution, length)
-
        if resolution < 42*9e-8:
            raise ValueError, "Resulution %.3e can not be smaller than %.3e"%(resolution, 42*9e-8)

@ -304,7 +308,7 @@ class Experiment:
            s_content = '<ttlout value="%s"/><analogout id="1" dac_value="%i"/>' % (trigger, dac_value)
            self.state_list.append(StateSimple(length, s_content))

-            if not is_seq and shape == None:
+            if not is_seq:
                s_content = '<analogout id="1" dac_value="0"/>'
                self.state_list.append(StateSimple(42*9e-8, s_content))

@ -341,12 +345,12 @@ class Experiment:
        """
        This sets the value for the DAC and if given the TTLs.
        It also sets it back to zero automatically.
-        If you don't whish to set the value back to zero (i.e. line shapes) set is_seq=True
+        If you don't wish to set the value back to zero (i.e. line shapes) set is_seq=True

        The state length is at least 3.78 µs (is_seq=1) or 7.28µs (is_seq=0).

        :param int dac_value: dac value, between -2**19-1 and +2**19
-        :param int dac_id: default=1, which dac to control
+        :param int dac_id: default=1, which DAC to control
        :param float length: default=None, length of this state in seconds. If *None* length=42*90ns=3.78µs
        :param bool is_seq: default=False, do not reset DAC to 0 (zero) if True
        :param int ttls: default=0,  lines to set (integer)
@ -389,10 +393,13 @@ class Experiment:
    def set_description(self, key, value):
        """Sets a description which is carried via the back end result 
        file to the result script in the front end. In the result script 
-        you can extract the description with get_description"""
+        you can extract the description with get_description
+
+        :param str key: the key
+        :param value: the value, its type is saved.
+        """
        if key in self.description.keys():
            print 'Warning: Overwriting existing description "%s" = "%s" with "%s"' % (key, self.description[key], value)
-
        self.description[key] = value

    ## set the PTS310/PTS500 frequency source to local mode