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<?xml version="1.0"?>
<!--
###################################################
## PCCC Decoder Combined
###################################################
 -->


<block>
	<name>PCCC Decoder Combo</name>
	<key>trellis_pccc_decoder_combined_xx</key>
	<category>Error Correction/Trellis</category>
	<import>from gnuradio import trellis, digital</import>
	<make>trellis.pccc_decoder_combined_$(type)$(out_type)(
		trellis.fsm($o_fsm_args), $o_init_state, $o_final_state, 
		trellis.fsm($i_fsm_args), $i_init_state, $i_final_state, 
		trellis.interleaver($interleaver), 
		$block_size,
		$iterations,
                $siso_type,
		$dim, $table, $metric_type,
		$scaling)
	</make>
        <callback>set_TABLE($table)</callback>
	<param>
		<name>Input Type</name>
		<key>type</key>
		<type>enum</type>
		<option>
			<name>Complex</name>
			<key>c</key>
			<opt>io:complex</opt>
			<opt>table:complex_vector</opt>
		</option>
		<option>
			<name>Float</name>
			<key>f</key>
			<opt>io:float</opt>
			<opt>table:real_vector</opt>
		</option>
	</param>
	<param>
		<name>Output Type</name>
		<key>out_type</key>
		<type>enum</type>
		<option>
			<name>Int</name>
			<key>i</key>
			<opt>io:int</opt>
		</option>
		<option>
			<name>Short</name>
			<key>s</key>
			<opt>io:short</opt>
		</option>
		<option>
			<name>Byte</name>
			<key>b</key>
			<opt>io:byte</opt>
		</option>
	</param>
	<param>
		<name>FSM 1</name>
		<key>o_fsm_args</key>
		<type>raw</type>
	</param>
	<param>
		<name>Initial State 1</name>
		<key>o_init_state</key>
		<value>0</value>
		<type>int</type>
	</param>
	<param>
		<name>Final State 1</name>
		<key>o_final_state</key>
		<value>-1</value>
		<type>int</type>
	</param>
	<param>
		<name>FSM 2</name>
		<key>i_fsm_args</key>
		<type>raw</type>
	</param>
	<param>
		<name>Initial State 2</name>
		<key>i_init_state</key>
		<value>0</value>
		<type>int</type>
	</param>
	<param>
		<name>Final State 2</name>
		<key>i_final_state</key>
		<value>-1</value>
		<type>int</type>
	</param>
	<param>
		<name>Interleaver</name>
		<key>interleaver</key>
		<type>raw</type>
	</param>
	<param>
		<name>Block Size</name>
		<key>block_size</key>
		<type>int</type>
	</param>
	<param>
		<name>Iterations</name>
		<key>iterations</key>
		<value>10</value>
		<type>int</type>
	</param>
	<param>
		<name>Dimensionality</name>
		<key>dim</key>
		<type>int</type>
	</param>
	<param>
		<name>Constellation</name>
		<key>table</key>
		<type>$type.table</type>
	</param>
	<param>
		<name>Metric Type</name>
		<key>metric_type</key>
		<type>enum</type>
		<option>
			<name>Euclidean</name>
			<key>digital.TRELLIS_EUCLIDEAN</key>
		</option>
		<option>
			<name>Hard Symbol</name>
			<key>digital.TRELLIS_HARD_SYMBOL</key>
		</option>
		<option>
			<name>Hard Bit</name>
			<key>digital.TRELLIS_HARD_BIT</key>
		</option>
	</param>
	<param>
		<name>SISO Type</name>
		<key>siso_type</key>
		<type>enum</type>
		<option>
			<name>Min Sum</name>
			<key>trellis.TRELLIS_MIN_SUM</key>
		</option>
		<option>
			<name>Sum Product</name>
			<key>trellis.TRELLIS_SUM_PRODUCT</key>
		</option>
	</param>
	<param>
		<name>Scaling</name>
		<key>scaling</key>
		<value>1.0</value>
		<type>real</type>
	</param>
	<sink>
		<name>in</name>
		<type>$type.io</type>
	</sink>
	<source>
		<name>out</name>
		<type>$out_type.io</type>
	</source>
	<doc>
PCCC turbo Decoder combined with metric calculation.
The fsm arguments are passed directly to the trellis.fsm() constructor.
	</doc>
</block>