<?xml version="1.0"?>
<!--
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##Trellis SISO
###################################################
 -->
<block>
	<name>Trellis SISO</name>
	<key>trellis_siso_f</key>
	<import>from gnuradio import trellis</import>
	<make>trellis.siso_f(trellis.fsm($fsm_args), $block_size, $init_state, $final_state, $a_post_in, $a_post_out, $siso_type)</make>
	<param>
		<name>FSM Args</name>
		<key>fsm_args</key>
		<type>raw</type>
	</param>
	<param>
		<name>Block Size</name>
		<key>block_size</key>
		<type>int</type>
	</param>
	<param>
		<name>Initial State</name>
		<key>init_state</key>
		<value>-1</value>
		<type>int</type>
	</param>
	<param>
		<name>Final State</name>
		<key>final_state</key>
		<value>-1</value>
		<type>int</type>
	</param>
	<param>
		<name>A-posteriori In</name>
		<key>a_post_in</key>
		<type>enum</type>
		<option>
			<name>Yes</name>
			<key>True</key>
		</option>
		<option>
			<name>No</name>
			<key>False</key>
		</option>
	</param>
	<param>
		<name>A-posteriori Out</name>
		<key>a_post_out</key>
		<type>enum</type>
		<option>
			<name>Yes</name>
			<key>True</key>
		</option>
		<option>
			<name>No</name>
			<key>False</key>
		</option>
	</param>
	<param>
		<name>SISO Type</name>
		<key>siso_type</key>
		<type>enum</type>
		<option>
			<name>Min Sum</name>
			<key>trellis.TRELLIS_MIN_SUM</key>
		</option>
		<option>
			<name>Sum Product</name>
			<key>trellis.TRELLIS_SUM_PRODUCT</key>
		</option>
	</param>
	<sink>
		<name>in</name>
		<type>float</type>
	</sink>
	<source>
		<name>out</name>
		<type>float</type>
	</source>
	<doc>
BCJR Algorithm. \
The fsm arguments are passed directly to the trellis.fsm() constructor.
	</doc>
</block>