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<title>[131975] trunk/dports/science/gr-dvbs2</title>
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<dt>Revision</dt> <dd><a href="https://trac.macports.org/changeset/131975">131975</a></dd>
<dt>Author</dt> <dd>michaelld@macports.org</dd>
<dt>Date</dt> <dd>2015-01-22 08:24:33 -0800 (Thu, 22 Jan 2015)</dd>
</dl>
<h3>Log Message</h3>
<pre>gr-dvbs2: temporary patches to hopefully fix compiling using libc++; also works with libstdc++.</pre>
<h3>Modified Paths</h3>
<ul>
<li><a href="#trunkdportssciencegrdvbs2Portfile">trunk/dports/science/gr-dvbs2/Portfile</a></li>
</ul>
<h3>Added Paths</h3>
<ul>
<li><a href="#trunkdportssciencegrdvbs2filespatchlib_modulator_bc_implccdiff">trunk/dports/science/gr-dvbs2/files/patch-lib_modulator_bc_impl.cc.diff</a></li>
<li><a href="#trunkdportssciencegrdvbs2filespatchlib_physical_cc_implccdiff">trunk/dports/science/gr-dvbs2/files/patch-lib_physical_cc_impl.cc.diff</a></li>
</ul>
</div>
<div id="patch">
<h3>Diff</h3>
<a id="trunkdportssciencegrdvbs2Portfile"></a>
<div class="modfile"><h4>Modified: trunk/dports/science/gr-dvbs2/Portfile (131974 => 131975)</h4>
<pre class="diff"><span>
<span class="info">--- trunk/dports/science/gr-dvbs2/Portfile        2015-01-22 15:51:33 UTC (rev 131974)
+++ trunk/dports/science/gr-dvbs2/Portfile        2015-01-22 16:24:33 UTC (rev 131975)
</span><span class="lines">@@ -48,6 +48,13 @@
</span><span class="cx"> configure.dir ${workpath}/build
</span><span class="cx"> build.dir ${workpath}/build
</span><span class="cx">
</span><ins>+# temporary patches to fix compiling using libc++;
+# also works with libstdc++
+
+patchfiles-append \
+ patch-lib_modulator_bc_impl.cc.diff \
+ patch-lib_physical_cc_impl.cc.diff
+
</ins><span class="cx"> # remove top-level library path, such that internal libraries are used
</span><span class="cx"> # instead of any already-installed ones.
</span><span class="cx">
</span></span></pre></div>
<a id="trunkdportssciencegrdvbs2filespatchlib_modulator_bc_implccdiff"></a>
<div class="addfile"><h4>Added: trunk/dports/science/gr-dvbs2/files/patch-lib_modulator_bc_impl.cc.diff (0 => 131975)</h4>
<pre class="diff"><span>
<span class="info">--- trunk/dports/science/gr-dvbs2/files/patch-lib_modulator_bc_impl.cc.diff         (rev 0)
+++ trunk/dports/science/gr-dvbs2/files/patch-lib_modulator_bc_impl.cc.diff        2015-01-22 16:24:33 UTC (rev 131975)
</span><span class="lines">@@ -0,0 +1,6057 @@
</span><ins>+--- lib/modulator_bc_impl.cc.orig        2015-01-22 11:20:09.000000000 -0500
++++ lib/modulator_bc_impl.cc        2015-01-22 11:20:57.000000000 -0500
+@@ -9,7 +9,7 @@
+ *
+ * This software is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.         See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+@@ -32,7 +32,7 @@
+ modulator_bc::make(dvbs2_constellation_t constellation, dvbs2_code_rate_t rate, dvbs2_framesize_t framesize)
+ {
+ return gnuradio::get_initial_sptr
+- (new modulator_bc_impl(constellation, rate, framesize));
++        (new modulator_bc_impl(constellation, rate, framesize));
+ }
+
+ /*
+@@ -40,2939 +40,2935 @@
+ */
+ modulator_bc_impl::modulator_bc_impl(dvbs2_constellation_t constellation, dvbs2_code_rate_t rate, dvbs2_framesize_t framesize)
+ : gr::block("modulator_bc",
+- gr::io_signature::make(1, 1, sizeof(unsigned char)),
+- gr::io_signature::make(1, 1, sizeof(gr_complex)))
++                 gr::io_signature::make(1, 1, sizeof(unsigned char)),
++                 gr::io_signature::make(1, 1, sizeof(gr_complex)))
+ {
+- double r1, r2, r3, r4, r5, r6, r7, r8;
+- double m = 1.0;
+- r1 = m;
+- switch (constellation)
+- {
+- case gr::dvbs2::MOD_QPSK:
+- m_qpsk[0].real() = (r1 * cos(M_PI / 4.0));
+- m_qpsk[0].imag() = (r1 * sin(M_PI / 4.0));
+- m_qpsk[1].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_qpsk[1].imag() = (r1 * sin(7 * M_PI / 4.0));
+- m_qpsk[2].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_qpsk[2].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_qpsk[3].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_qpsk[3].imag() = (r1 * sin(5 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_8PSK:
+- m_8psk[0].real() = (r1 * cos(M_PI / 4.0));
+- m_8psk[0].imag() = (r1 * sin(M_PI / 4.0));
+- m_8psk[1].real() = (r1 * cos(0.0));
+- m_8psk[1].imag() = (r1 * sin(0.0));
+- m_8psk[2].real() = (r1 * cos(4 * M_PI / 4.0));
+- m_8psk[2].imag() = (r1 * sin(4 * M_PI / 4.0));
+- m_8psk[3].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_8psk[3].imag() = (r1 * sin(5 * M_PI / 4.0));
+- m_8psk[4].real() = (r1 * cos(2 * M_PI / 4.0));
+- m_8psk[4].imag() = (r1 * sin(2 * M_PI / 4.0));
+- m_8psk[5].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_8psk[5].imag() = (r1 * sin(7 * M_PI / 4.0));
+- m_8psk[6].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_8psk[6].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_8psk[7].real() = (r1 * cos(6 * M_PI / 4.0));
+- m_8psk[7].imag() = (r1 * sin(6 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_8APSK:
+- r3 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C100_180:
+- r1 = r3 / 6.8;
+- r2 = r1 * 5.32;
+- break;
+- case gr::dvbs2::C104_180:
+- r1 = r3 / 8.0;
+- r2 = r1 * 6.39;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- break;
+- }
+- m_8psk[0].real() = (r1 * cos(M_PI));
+- m_8psk[0].imag() = (r1 * sin(M_PI));
+- m_8psk[1].real() = (r2 * cos(M_PI * 1.352));
+- m_8psk[1].imag() = (r2 * sin(M_PI * 1.352));
+- m_8psk[2].real() = (r2 * cos(M_PI * -1.352));
+- m_8psk[2].imag() = (r2 * sin(M_PI * -1.352));
+- m_8psk[3].real() = (r3 * cos(M_PI));
+- m_8psk[3].imag() = (r3 * sin(M_PI));
+- m_8psk[4].real() = (r1 * cos(0.0));
+- m_8psk[4].imag() = (r1 * sin(0.0));
+- m_8psk[5].real() = (r2 * cos(M_PI * -0.352));
+- m_8psk[5].imag() = (r2 * sin(M_PI * -0.352));
+- m_8psk[6].real() = (r2 * cos(M_PI * 0.352));
+- m_8psk[6].imag() = (r2 * sin(M_PI * 0.352));
+- m_8psk[7].real() = (r3 * cos(0.0));
+- m_8psk[7].imag() = (r3 * sin(0.0));
+- break;
+- case gr::dvbs2::MOD_16APSK:
+- r2 = m;
+- if (framesize == gr::dvbs2::FECFRAME_NORMAL)
+- {
+- switch(rate)
+- {
+- case gr::dvbs2::C2_3:
+- r1 = r2 / 3.15;
+- break;
+- case gr::dvbs2::C3_4:
+- r1 = r2 / 2.85;
+- break;
+- case gr::dvbs2::C4_5:
+- r1 = r2 / 2.75;
+- break;
+- case gr::dvbs2::C5_6:
+- r1 = r2 / 2.70;
+- break;
+- case gr::dvbs2::C8_9:
+- r1 = r2 / 2.60;
+- break;
+- case gr::dvbs2::C9_10:
+- r1 = r2 / 2.57;
+- break;
+- case gr::dvbs2::C26_45:
+- case gr::dvbs2::C3_5:
+- r1 = r2 / 3.70;
+- break;
+- case gr::dvbs2::C28_45:
+- r1 = r2 / 3.50;
+- break;
+- case gr::dvbs2::C23_36:
+- case gr::dvbs2::C25_36:
+- r1 = r2 / 3.10;
+- break;
+- case gr::dvbs2::C13_18:
+- r1 = r2 / 2.85;
+- break;
+- case gr::dvbs2::C140_180:
+- r1 = r2 / 3.60;
+- break;
+- case gr::dvbs2::C154_180:
+- r1 = r2 / 3.20;
+- break;
+- default:
+- r1 = 0;
+- break;
+- }
+- }
+- else
+- {
+- switch(rate)
+- {
+- case gr::dvbs2::C2_3:
+- r1 = r2 / 3.15;
+- break;
+- case gr::dvbs2::C3_4:
+- r1 = r2 / 2.85;
+- break;
+- case gr::dvbs2::C4_5:
+- r1 = r2 / 2.75;
+- break;
+- case gr::dvbs2::C5_6:
+- r1 = r2 / 2.70;
+- break;
+- case gr::dvbs2::C8_9:
+- r1 = r2 / 2.60;
+- break;
+- case gr::dvbs2::C7_15:
+- r1 = r2 / 3.32;
+- break;
+- case gr::dvbs2::C8_15:
+- r1 = r2 / 3.50;
+- break;
+- case gr::dvbs2::C26_45:
+- case gr::dvbs2::C3_5:
+- r1 = r2 / 3.70;
+- break;
+- case gr::dvbs2::C32_45:
+- r1 = r2 / 2.85;
+- break;
+- default:
+- r1 = 0;
+- break;
+- }
+- }
+- m_16apsk[0].real() = (r2 * cos(M_PI / 4.0));
+- m_16apsk[0].imag() = (r2 * sin(M_PI / 4.0));
+- m_16apsk[1].real() = (r2 * cos(-M_PI / 4.0));
+- m_16apsk[1].imag() = (r2 * sin(-M_PI / 4.0));
+- m_16apsk[2].real() = (r2 * cos(3 * M_PI / 4.0));
+- m_16apsk[2].imag() = (r2 * sin(3 * M_PI / 4.0));
+- m_16apsk[3].real() = (r2 * cos(-3 * M_PI / 4.0));
+- m_16apsk[3].imag() = (r2 * sin(-3 * M_PI / 4.0));
+- m_16apsk[4].real() = (r2 * cos(M_PI / 12.0));
+- m_16apsk[4].imag() = (r2 * sin(M_PI / 12.0));
+- m_16apsk[5].real() = (r2 * cos(-M_PI / 12.0));
+- m_16apsk[5].imag() = (r2 * sin(-M_PI / 12.0));
+- m_16apsk[6].real() = (r2 * cos(11 * M_PI / 12.0));
+- m_16apsk[6].imag() = (r2 * sin(11 * M_PI / 12.0));
+- m_16apsk[7].real() = (r2 * cos(-11 * M_PI / 12.0));
+- m_16apsk[7].imag() = (r2 * sin(-11 * M_PI / 12.0));
+- m_16apsk[8].real() = (r2 * cos(5 * M_PI / 12.0));
+- m_16apsk[8].imag() = (r2 * sin(5 * M_PI / 12.0));
+- m_16apsk[9].real() = (r2 * cos(-5 * M_PI / 12.0));
+- m_16apsk[9].imag() = (r2 * sin(-5 * M_PI / 12.0));
+- m_16apsk[10].real() = (r2 * cos(7 * M_PI / 12.0));
+- m_16apsk[10].imag() = (r2 * sin(7 * M_PI / 12.0));
+- m_16apsk[11].real() = (r2 * cos(-7 * M_PI / 12.0));
+- m_16apsk[11].imag() = (r2 * sin(-7 * M_PI / 12.0));
+- m_16apsk[12].real() = (r1 * cos(M_PI / 4.0));
+- m_16apsk[12].imag() = (r1 * sin(M_PI / 4.0));
+- m_16apsk[13].real() = (r1 * cos(-M_PI / 4.0));
+- m_16apsk[13].imag() = (r1 * sin(-M_PI / 4.0));
+- m_16apsk[14].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_16apsk[14].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_16apsk[15].real() = (r1 * cos(-3 * M_PI / 4.0));
+- m_16apsk[15].imag() = (r1 * sin(-3 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_8_8APSK:
+- if (rate == gr::dvbs2::C18_30)
+- {
+- m_16apsk[0].real() = 0.4718;
+- m_16apsk[0].imag() = 0.2606;
+- m_16apsk[1].real() = 0.2606;
+- m_16apsk[1].imag() = 0.4718;
+- m_16apsk[2].real() = -0.4718;
+- m_16apsk[2].imag() = 0.2606;
+- m_16apsk[3].real() = -0.2606;
+- m_16apsk[3].imag() = 0.4718;
+- m_16apsk[4].real() = 0.4718;
+- m_16apsk[4].imag() = -0.2606;
+- m_16apsk[5].real() = 0.2606;
+- m_16apsk[5].imag() = -0.4718;
+- m_16apsk[6].real() = -0.4718;
+- m_16apsk[6].imag() = -0.2606;
+- m_16apsk[7].real() = -0.2606;
+- m_16apsk[7].imag() = -0.4718;
+- m_16apsk[8].real() = 1.2088;
+- m_16apsk[8].imag() = 0.4984;
+- m_16apsk[9].real() = 0.4984;
+- m_16apsk[9].imag() = 1.2088;
+- m_16apsk[10].real() = -1.2088;
+- m_16apsk[10].imag() = 0.4984;
+- m_16apsk[11].real() = -0.4984;
+- m_16apsk[11].imag() = 1.2088;
+- m_16apsk[12].real() = 1.2088;
+- m_16apsk[12].imag() = -0.4984;
+- m_16apsk[13].real() = 0.4984;
+- m_16apsk[13].imag() = -1.2088;
+- m_16apsk[14].real() = -1.2088;
+- m_16apsk[14].imag() = -0.4984;
+- m_16apsk[15].real() = -0.4984;
+- m_16apsk[15].imag() = -1.2088;
+- for (int i = 0; i < 16; i++)
+- {
+- m_16apsk[i].real() /= 1.2088;
+- m_16apsk[i].imag() /= 1.2088;
+- }
+- }
+- else if (rate == gr::dvbs2::C20_30)
+- {
+- m_16apsk[0].real() = 0.5061;
+- m_16apsk[0].imag() = 0.2474;
+- m_16apsk[1].real() = 0.2474;
+- m_16apsk[1].imag() = 0.5061;
+- m_16apsk[2].real() = -0.5061;
+- m_16apsk[2].imag() = 0.2474;
+- m_16apsk[3].real() = -0.2474;
+- m_16apsk[3].imag() = 0.5061;
+- m_16apsk[4].real() = 0.5061;
+- m_16apsk[4].imag() = -0.2474;
+- m_16apsk[5].real() = 0.2474;
+- m_16apsk[5].imag() = -0.5061;
+- m_16apsk[6].real() = -0.5061;
+- m_16apsk[6].imag() = -0.2474;
+- m_16apsk[7].real() = -0.2474;
+- m_16apsk[7].imag() = -0.5061;
+- m_16apsk[8].real() = 1.2007;
+- m_16apsk[8].imag() = 0.4909;
+- m_16apsk[9].real() = 0.4909;
+- m_16apsk[9].imag() = 1.2007;
+- m_16apsk[10].real() = -1.2007;
+- m_16apsk[10].imag() = 0.4909;
+- m_16apsk[11].real() = -0.4909;
+- m_16apsk[11].imag() = 1.2007;
+- m_16apsk[12].real() = 1.2007;
+- m_16apsk[12].imag() = -0.4909;
+- m_16apsk[13].real() = 0.4909;
+- m_16apsk[13].imag() = -1.2007;
+- m_16apsk[14].real() = -1.2007;
+- m_16apsk[14].imag() = -0.4909;
+- m_16apsk[15].real() = -0.4909;
+- m_16apsk[15].imag() = -1.2007;
+- for (int i = 0; i < 16; i++)
+- {
+- m_16apsk[i].real() /= 1.2007;
+- m_16apsk[i].imag() /= 1.2007;
+- }
+- }
+- else
+- {
+- r2 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C90_180:
+- case gr::dvbs2::C96_180:
+- case gr::dvbs2::C100_180:
+- r1 = r2 / 2.19;
+- break;
+- default:
+- r1 = 0;
+- break;
+- }
+- m_16apsk[0].real() = (r1 * cos(M_PI / 8.0));
+- m_16apsk[0].imag() = (r1 * sin(M_PI / 8.0));
+- m_16apsk[1].real() = (r1 * cos(3 * M_PI / 8.0));
+- m_16apsk[1].imag() = (r1 * sin(3 * M_PI / 8.0));
+- m_16apsk[2].real() = (r1 * cos(7 * M_PI / 8.0));
+- m_16apsk[2].imag() = (r1 * sin(7 * M_PI / 8.0));
+- m_16apsk[3].real() = (r1 * cos(5 * M_PI / 8.0));
+- m_16apsk[3].imag() = (r1 * sin(5 * M_PI / 8.0));
+- m_16apsk[4].real() = (r1 * cos(15 * M_PI / 8.0));
+- m_16apsk[4].imag() = (r1 * sin(15 * M_PI / 8.0));
+- m_16apsk[5].real() = (r1 * cos(13 * M_PI / 8.0));
+- m_16apsk[5].imag() = (r1 * sin(13 * M_PI / 8.0));
+- m_16apsk[6].real() = (r1 * cos(9 * M_PI / 8.0));
+- m_16apsk[6].imag() = (r1 * sin(9 * M_PI / 8.0));
+- m_16apsk[7].real() = (r1 * cos(11 * M_PI / 8.0));
+- m_16apsk[7].imag() = (r1 * sin(11 * M_PI / 8.0));
+- m_16apsk[8].real() = (r2 * cos(M_PI / 8.0));
+- m_16apsk[8].imag() = (r2 * sin(M_PI / 8.0));
+- m_16apsk[9].real() = (r2 * cos(3 * M_PI / 8.0));
+- m_16apsk[9].imag() = (r2 * sin(3 * M_PI / 8.0));
+- m_16apsk[10].real() = (r2 * cos(7 * M_PI / 8.0));
+- m_16apsk[10].imag() = (r2 * sin(7 * M_PI / 8.0));
+- m_16apsk[11].real() = (r2 * cos(5 * M_PI / 8.0));
+- m_16apsk[11].imag() = (r2 * sin(5 * M_PI / 8.0));
+- m_16apsk[12].real() = (r2 * cos(15 * M_PI / 8.0));
+- m_16apsk[12].imag() = (r2 * sin(15 * M_PI / 8.0));
+- m_16apsk[13].real() = (r2 * cos(13 * M_PI / 8.0));
+- m_16apsk[13].imag() = (r2 * sin(13 * M_PI / 8.0));
+- m_16apsk[14].real() = (r2 * cos(9 * M_PI / 8.0));
+- m_16apsk[14].imag() = (r2 * sin(9 * M_PI / 8.0));
+- m_16apsk[15].real() = (r2 * cos(11 * M_PI / 8.0));
+- m_16apsk[15].imag() = (r2 * sin(11 * M_PI / 8.0));
+- }
+- break;
+- case gr::dvbs2::MOD_32APSK:
+- r3 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C3_4:
+- r1 = r3 / 5.27;
+- r2 = r1 * 2.84;
+- break;
+- case gr::dvbs2::C4_5:
+- r1 = r3 / 4.87;
+- r2 = r1 * 2.72;
+- break;
+- case gr::dvbs2::C5_6:
+- r1 = r3 / 4.64;
+- r2 = r1 * 2.64;
+- break;
+- case gr::dvbs2::C8_9:
+- r1 = r3 / 4.33;
+- r2 = r1 * 2.54;
+- break;
+- case gr::dvbs2::C9_10:
+- r1 = r3 / 4.30;
+- r2 = r1 * 2.53;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- break;
+- }
+- m_32apsk[0].real() = (r2 * cos(M_PI / 4.0));
+- m_32apsk[0].imag() = (r2 * sin(M_PI / 4.0));
+- m_32apsk[1].real() = (r2 * cos(5 * M_PI / 12.0));
+- m_32apsk[1].imag() = (r2 * sin(5 * M_PI / 12.0));
+- m_32apsk[2].real() = (r2 * cos(-M_PI / 4.0));
+- m_32apsk[2].imag() = (r2 * sin(-M_PI / 4.0));
+- m_32apsk[3].real() = (r2 * cos(-5 * M_PI / 12.0));
+- m_32apsk[3].imag() = (r2 * sin(-5 * M_PI / 12.0));
+- m_32apsk[4].real() = (r2 * cos(3 * M_PI / 4.0));
+- m_32apsk[4].imag() = (r2 * sin(3 * M_PI / 4.0));
+- m_32apsk[5].real() = (r2 * cos(7 * M_PI / 12.0));
+- m_32apsk[5].imag() = (r2 * sin(7 * M_PI / 12.0));
+- m_32apsk[6].real() = (r2 * cos(-3 * M_PI / 4.0));
+- m_32apsk[6].imag() = (r2 * sin(-3 * M_PI / 4.0));
+- m_32apsk[7].real() = (r2 * cos(-7 * M_PI / 12.0));
+- m_32apsk[7].imag() = (r2 * sin(-7 * M_PI / 12.0));
+- m_32apsk[8].real() = (r3 * cos(M_PI / 8.0));
+- m_32apsk[8].imag() = (r3 * sin(M_PI / 8.0));
+- m_32apsk[9].real() = (r3 * cos(3 * M_PI / 8.0));
+- m_32apsk[9].imag() = (r3 * sin(3 * M_PI / 8.0));
+- m_32apsk[10].real() = (r3 * cos(-M_PI / 4.0));
+- m_32apsk[10].imag() = (r3 * sin(-M_PI / 4.0));
+- m_32apsk[11].real() = (r3 * cos(-M_PI / 2.0));
+- m_32apsk[11].imag() = (r3 * sin(-M_PI / 2.0));
+- m_32apsk[12].real() = (r3 * cos(3 * M_PI / 4.0));
+- m_32apsk[12].imag() = (r3 * sin(3 * M_PI / 4.0));
+- m_32apsk[13].real() = (r3 * cos(M_PI / 2.0));
+- m_32apsk[13].imag() = (r3 * sin(M_PI / 2.0));
+- m_32apsk[14].real() = (r3 * cos(-7 * M_PI / 8.0));
+- m_32apsk[14].imag() = (r3 * sin(-7 * M_PI / 8.0));
+- m_32apsk[15].real() = (r3 * cos(-5 * M_PI / 8.0));
+- m_32apsk[15].imag() = (r3 * sin(-5 * M_PI / 8.0));
+- m_32apsk[16].real() = (r2 * cos(M_PI / 12.0));
+- m_32apsk[16].imag() = (r2 * sin(M_PI / 12.0));
+- m_32apsk[17].real() = (r1 * cos(M_PI / 4.0));
+- m_32apsk[17].imag() = (r1 * sin(M_PI / 4.0));
+- m_32apsk[18].real() = (r2 * cos(-M_PI / 12.0));
+- m_32apsk[18].imag() = (r2 * sin(-M_PI / 12.0));
+- m_32apsk[19].real() = (r1 * cos(-M_PI / 4.0));
+- m_32apsk[19].imag() = (r1 * sin(-M_PI / 4.0));
+- m_32apsk[20].real() = (r2 * cos(11 * M_PI / 12.0));
+- m_32apsk[20].imag() = (r2 * sin(11 * M_PI / 12.0));
+- m_32apsk[21].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_32apsk[21].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_32apsk[22].real() = (r2 * cos(-11 * M_PI / 12.0));
+- m_32apsk[22].imag() = (r2 * sin(-11 * M_PI / 12.0));
+- m_32apsk[23].real() = (r1 * cos(-3 * M_PI / 4.0));
+- m_32apsk[23].imag() = (r1 * sin(-3 * M_PI / 4.0));
+- m_32apsk[24].real() = (r3 * cos(0.0));
+- m_32apsk[24].imag() = (r3 * sin(0.0));
+- m_32apsk[25].real() = (r3 * cos(M_PI / 4.0));
+- m_32apsk[25].imag() = (r3 * sin(M_PI / 4.0));
+- m_32apsk[26].real() = (r3 * cos(-M_PI / 8.0));
+- m_32apsk[26].imag() = (r3 * sin(-M_PI / 8.0));
+- m_32apsk[27].real() = (r3 * cos(-3 * M_PI / 8.0));
+- m_32apsk[27].imag() = (r3 * sin(-3 * M_PI / 8.0));
+- m_32apsk[28].real() = (r3 * cos(7 * M_PI / 8.0));
+- m_32apsk[28].imag() = (r3 * sin(7 * M_PI / 8.0));
+- m_32apsk[29].real() = (r3 * cos(5 * M_PI / 8.0));
+- m_32apsk[29].imag() = (r3 * sin(5 * M_PI / 8.0));
+- m_32apsk[30].real() = (r3 * cos(M_PI));
+- m_32apsk[30].imag() = (r3 * sin(M_PI));
+- m_32apsk[31].real() = (r3 * cos(-3 * M_PI / 4.0));
+- m_32apsk[31].imag() = (r3 * sin(-3 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_4_12_16APSK:
+- r3 = m;
+- if (framesize == gr::dvbs2::FECFRAME_NORMAL)
+- {
+- switch(rate)
+- {
+- case gr::dvbs2::C2_3:
+- r1 = r3 / 5.55;
+- r2 = r1 * 2.85;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- break;
+- }
+- }
+- else
+- {
+- switch(rate)
+- {
+- case gr::dvbs2::C2_3:
+- r1 = r3 / 5.54;
+- r2 = r1 * 2.84;
+- break;
+- case gr::dvbs2::C32_45:
+- r1 = r3 / 5.26;
+- r2 = r1 * 2.84;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- break;
+- }
+- }
+- m_32apsk[0].real() = (r3 * cos(11 * M_PI / 16.0));
+- m_32apsk[0].imag() = (r3 * sin(11 * M_PI / 16.0));
+- m_32apsk[1].real() = (r3 * cos(9 * M_PI / 16.0));
+- m_32apsk[1].imag() = (r3 * sin(9 * M_PI / 16.0));
+- m_32apsk[2].real() = (r3 * cos(5 * M_PI / 16.0));
+- m_32apsk[2].imag() = (r3 * sin(5 * M_PI / 16.0));
+- m_32apsk[3].real() = (r3 * cos(7 * M_PI / 16.0));
+- m_32apsk[3].imag() = (r3 * sin(7 * M_PI / 16.0));
+- m_32apsk[4].real() = (r2 * cos(3 * M_PI / 4.0));
+- m_32apsk[4].imag() = (r2 * sin(3 * M_PI / 4.0));
+- m_32apsk[5].real() = (r2 * cos(7 * M_PI / 12.0));
+- m_32apsk[5].imag() = (r2 * sin(7 * M_PI / 12.0));
+- m_32apsk[6].real() = (r2 * cos(M_PI / 4.0));
+- m_32apsk[6].imag() = (r2 * sin(M_PI / 4.0));
+- m_32apsk[7].real() = (r2 * cos(5 * M_PI / 12.0));
+- m_32apsk[7].imag() = (r2 * sin(5 * M_PI / 12.0));
+- m_32apsk[8].real() = (r3 * cos(13 * M_PI / 16.0));
+- m_32apsk[8].imag() = (r3 * sin(13 * M_PI / 16.0));
+- m_32apsk[9].real() = (r3 * cos(15 * M_PI / 16.0));
+- m_32apsk[9].imag() = (r3 * sin(15 * M_PI / 16.0));
+- m_32apsk[10].real() = (r3 * cos(3 * M_PI / 16.0));
+- m_32apsk[10].imag() = (r3 * sin(3 * M_PI / 16.0));
+- m_32apsk[11].real() = (r3 * cos(M_PI / 16.0));
+- m_32apsk[11].imag() = (r3 * sin(M_PI / 16.0));
+- m_32apsk[12].real() = (r2 * cos(11 * M_PI / 12.0));
+- m_32apsk[12].imag() = (r2 * sin(11 * M_PI / 12.0));
+- m_32apsk[13].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_32apsk[13].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_32apsk[14].real() = (r2 * cos(M_PI / 12.0));
+- m_32apsk[14].imag() = (r2 * sin(M_PI / 12.0));
+- m_32apsk[15].real() = (r1 * cos(M_PI / 4.0));
+- m_32apsk[15].imag() = (r1 * sin(M_PI / 4.0));
+- m_32apsk[16].real() = (r3 * cos(21 * M_PI / 16.0));
+- m_32apsk[16].imag() = (r3 * sin(21 * M_PI / 16.0));
+- m_32apsk[17].real() = (r3 * cos(23 * M_PI / 16.0));
+- m_32apsk[17].imag() = (r3 * sin(23 * M_PI / 16.0));
+- m_32apsk[18].real() = (r3 * cos(27 * M_PI / 16.0));
+- m_32apsk[18].imag() = (r3 * sin(27 * M_PI / 16.0));
+- m_32apsk[19].real() = (r3 * cos(25 * M_PI / 16.0));
+- m_32apsk[19].imag() = (r3 * sin(25 * M_PI / 16.0));
+- m_32apsk[20].real() = (r2 * cos(5 * M_PI / 4.0));
+- m_32apsk[20].imag() = (r2 * sin(5 * M_PI / 4.0));
+- m_32apsk[21].real() = (r2 * cos(17 * M_PI / 12.0));
+- m_32apsk[21].imag() = (r2 * sin(17 * M_PI / 12.0));
+- m_32apsk[22].real() = (r2 * cos(7 * M_PI / 4.0));
+- m_32apsk[22].imag() = (r2 * sin(7 * M_PI / 4.0));
+- m_32apsk[23].real() = (r2 * cos(19 * M_PI / 12.0));
+- m_32apsk[23].imag() = (r2 * sin(19 * M_PI / 12.0));
+- m_32apsk[24].real() = (r3 * cos(19 * M_PI / 16.0));
+- m_32apsk[24].imag() = (r3 * sin(19 * M_PI / 16.0));
+- m_32apsk[25].real() = (r3 * cos(17 * M_PI / 16.0));
+- m_32apsk[25].imag() = (r3 * sin(17 * M_PI / 16.0));
+- m_32apsk[26].real() = (r3 * cos(29 * M_PI / 16.0));
+- m_32apsk[26].imag() = (r3 * sin(29 * M_PI / 16.0));
+- m_32apsk[27].real() = (r3 * cos(31 * M_PI / 16.0));
+- m_32apsk[27].imag() = (r3 * sin(31 * M_PI / 16.0));
+- m_32apsk[28].real() = (r2 * cos(13 * M_PI / 12.0));
+- m_32apsk[28].imag() = (r2 * sin(13 * M_PI / 12.0));
+- m_32apsk[29].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_32apsk[29].imag() = (r1 * sin(5 * M_PI / 4.0));
+- m_32apsk[30].real() = (r2 * cos(23 * M_PI / 12.0));
+- m_32apsk[30].imag() = (r2 * sin(23 * M_PI / 12.0));
+- m_32apsk[31].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_32apsk[31].imag() = (r1 * sin(7 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_4_8_4_16APSK:
+- r4 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C128_180:
+- r1 = r4 / 5.6;
+- r3 = r1 * 2.99;
+- r2 = r1 * 2.6;
+- break;
+- case gr::dvbs2::C132_180:
+- r1 = r4 / 5.6;
+- r3 = r1 * 2.86;
+- r2 = r1 * 2.6;
+- break;
+- case gr::dvbs2::C140_180:
+- r1 = r4 / 5.6;
+- r3 = r1 * 3.08;
+- r2 = r1 * 2.6;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- break;
+- }
+- m_32apsk[0].real() = (r1 * cos(M_PI / 4.0));
+- m_32apsk[0].imag() = (r1 * sin(M_PI / 4.0));
+- m_32apsk[1].real() = (r4 * cos(7 * M_PI / 16.0));
+- m_32apsk[1].imag() = (r4 * sin(7 * M_PI / 16.0));
+- m_32apsk[2].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_32apsk[2].imag() = (r1 * sin(7 * M_PI / 4.0));
+- m_32apsk[3].real() = (r4 * cos(25 * M_PI / 16.0));
+- m_32apsk[3].imag() = (r4 * sin(25 * M_PI / 16.0));
+- m_32apsk[4].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_32apsk[4].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_32apsk[5].real() = (r4 * cos(9 * M_PI / 16.0));
+- m_32apsk[5].imag() = (r4 * sin(9 * M_PI / 16.0));
+- m_32apsk[6].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_32apsk[6].imag() = (r1 * sin(5 * M_PI / 4.0));
+- m_32apsk[7].real() = (r4 * cos(23 * M_PI / 16.0));
+- m_32apsk[7].imag() = (r4 * sin(23 * M_PI / 16.0));
+- m_32apsk[8].real() = (r2 * cos(M_PI / 12.0));
+- m_32apsk[8].imag() = (r2 * sin(M_PI / 12.0));
+- m_32apsk[9].real() = (r4 * cos(M_PI / 16.0));
+- m_32apsk[9].imag() = (r4 * sin(M_PI / 16.0));
+- m_32apsk[10].real() = (r2 * cos(23 * M_PI / 12.0));
+- m_32apsk[10].imag() = (r2 * sin(23 * M_PI / 12.0));
+- m_32apsk[11].real() = (r4 * cos(31 * M_PI / 16.0));
+- m_32apsk[11].imag() = (r4 * sin(31 * M_PI / 16.0));
+- m_32apsk[12].real() = (r2 * cos(11 * M_PI / 12.0));
+- m_32apsk[12].imag() = (r2 * sin(11 * M_PI / 12.0));
+- m_32apsk[13].real() = (r4 * cos(15 * M_PI / 16.0));
+- m_32apsk[13].imag() = (r4 * sin(15 * M_PI / 16.0));
+- m_32apsk[14].real() = (r2 * cos(13 * M_PI / 12.0));
+- m_32apsk[14].imag() = (r2 * sin(13 * M_PI / 12.0));
+- m_32apsk[15].real() = (r4 * cos(17 * M_PI / 16.0));
+- m_32apsk[15].imag() = (r4 * sin(17 * M_PI / 16.0));
+- m_32apsk[16].real() = (r2 * cos(5 * M_PI / 12.0));
+- m_32apsk[16].imag() = (r2 * sin(5 * M_PI / 12.0));
+- m_32apsk[17].real() = (r4 * cos(5 * M_PI / 16.0));
+- m_32apsk[17].imag() = (r4 * sin(5 * M_PI / 16.0));
+- m_32apsk[18].real() = (r2 * cos(19 * M_PI / 12.0));
+- m_32apsk[18].imag() = (r2 * sin(19 * M_PI / 12.0));
+- m_32apsk[19].real() = (r4 * cos(27 * M_PI / 16.0));
+- m_32apsk[19].imag() = (r4 * sin(27 * M_PI / 16.0));
+- m_32apsk[20].real() = (r2 * cos(7 * M_PI / 12.0));
+- m_32apsk[20].imag() = (r2 * sin(7 * M_PI / 12.0));
+- m_32apsk[21].real() = (r4 * cos(11 * M_PI / 16.0));
+- m_32apsk[21].imag() = (r4 * sin(11 * M_PI / 16.0));
+- m_32apsk[22].real() = (r2 * cos(17 * M_PI / 12.0));
+- m_32apsk[22].imag() = (r2 * sin(17 * M_PI / 12.0));
+- m_32apsk[23].real() = (r4 * cos(21 * M_PI / 16.0));
+- m_32apsk[23].imag() = (r4 * sin(21 * M_PI / 16.0));
+- m_32apsk[24].real() = (r3 * cos(M_PI / 4.0));
+- m_32apsk[24].imag() = (r3 * sin(M_PI / 4.0));
+- m_32apsk[25].real() = (r4 * cos(3 * M_PI / 16.0));
+- m_32apsk[25].imag() = (r4 * sin(3 * M_PI / 16.0));
+- m_32apsk[26].real() = (r3 * cos(7 * M_PI / 4.0));
+- m_32apsk[26].imag() = (r3 * sin(7 * M_PI / 4.0));
+- m_32apsk[27].real() = (r4 * cos(29 * M_PI / 16.0));
+- m_32apsk[27].imag() = (r4 * sin(29 * M_PI / 16.0));
+- m_32apsk[28].real() = (r3 * cos(3 * M_PI / 4.0));
+- m_32apsk[28].imag() = (r3 * sin(3 * M_PI / 4.0));
+- m_32apsk[29].real() = (r4 * cos(13 * M_PI / 16.0));
+- m_32apsk[29].imag() = (r4 * sin(13 * M_PI / 16.0));
+- m_32apsk[30].real() = (r3 * cos(5 * M_PI / 4.0));
+- m_32apsk[30].imag() = (r3 * sin(5 * M_PI / 4.0));
+- m_32apsk[31].real() = (r4 * cos(19 * M_PI / 16.0));
+- m_32apsk[31].imag() = (r4 * sin(19 * M_PI / 16.0));
+- break;
+- case gr::dvbs2::MOD_64APSK:
+- r4 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C128_180:
+- r1 = r4 / 3.95;
+- r3 = r1 * 2.72;
+- r2 = r1 * 1.88;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- break;
+- }
+- m_64apsk[0].real() = (r1 * cos(M_PI / 16.0));
+- m_64apsk[0].imag() = (r1 * sin(M_PI / 16.0));
+- m_64apsk[1].real() = (r1 * cos(3 * M_PI / 16.0));
+- m_64apsk[1].imag() = (r1 * sin(3 * M_PI / 16.0));
+- m_64apsk[2].real() = (r1 * cos(7 * M_PI / 16.0));
+- m_64apsk[2].imag() = (r1 * sin(7 * M_PI / 16.0));
+- m_64apsk[3].real() = (r1 * cos(5 * M_PI / 16.0));
+- m_64apsk[3].imag() = (r1 * sin(5 * M_PI / 16.0));
+- m_64apsk[4].real() = (r1 * cos(31 * M_PI / 16.0));
+- m_64apsk[4].imag() = (r1 * sin(31 * M_PI / 16.0));
+- m_64apsk[5].real() = (r1 * cos(29 * M_PI / 16.0));
+- m_64apsk[5].imag() = (r1 * sin(29 * M_PI / 16.0));
+- m_64apsk[6].real() = (r1 * cos(25 * M_PI / 16.0));
+- m_64apsk[6].imag() = (r1 * sin(25 * M_PI / 16.0));
+- m_64apsk[7].real() = (r1 * cos(27 * M_PI / 16.0));
+- m_64apsk[7].imag() = (r1 * sin(27 * M_PI / 16.0));
+- m_64apsk[8].real() = (r1 * cos(15 * M_PI / 16.0));
+- m_64apsk[8].imag() = (r1 * sin(15 * M_PI / 16.0));
+- m_64apsk[9].real() = (r1 * cos(13 * M_PI / 16.0));
+- m_64apsk[9].imag() = (r1 * sin(13 * M_PI / 16.0));
+- m_64apsk[10].real() = (r1 * cos(9 * M_PI / 16.0));
+- m_64apsk[10].imag() = (r1 * sin(9 * M_PI / 16.0));
+- m_64apsk[11].real() = (r1 * cos(11 * M_PI / 16.0));
+- m_64apsk[11].imag() = (r1 * sin(11 * M_PI / 16.0));
+- m_64apsk[12].real() = (r1 * cos(17 * M_PI / 16.0));
+- m_64apsk[12].imag() = (r1 * sin(17 * M_PI / 16.0));
+- m_64apsk[13].real() = (r1 * cos(19 * M_PI / 16.0));
+- m_64apsk[13].imag() = (r1 * sin(19 * M_PI / 16.0));
+- m_64apsk[14].real() = (r1 * cos(23 * M_PI / 16.0));
+- m_64apsk[14].imag() = (r1 * sin(23 * M_PI / 16.0));
+- m_64apsk[15].real() = (r1 * cos(21 * M_PI / 16.0));
+- m_64apsk[15].imag() = (r1 * sin(21 * M_PI / 16.0));
+- m_64apsk[16].real() = (r2 * cos(M_PI / 16.0));
+- m_64apsk[16].imag() = (r2 * sin(M_PI / 16.0));
+- m_64apsk[17].real() = (r2 * cos(3 * M_PI / 16.0));
+- m_64apsk[17].imag() = (r2 * sin(3 * M_PI / 16.0));
+- m_64apsk[18].real() = (r2 * cos(7 * M_PI / 16.0));
+- m_64apsk[18].imag() = (r2 * sin(7 * M_PI / 16.0));
+- m_64apsk[19].real() = (r2 * cos(5 * M_PI / 16.0));
+- m_64apsk[19].imag() = (r2 * sin(5 * M_PI / 16.0));
+- m_64apsk[20].real() = (r2 * cos(31 * M_PI / 16.0));
+- m_64apsk[20].imag() = (r2 * sin(31* M_PI / 16.0));
+- m_64apsk[21].real() = (r2 * cos(29 * M_PI / 16.0));
+- m_64apsk[21].imag() = (r2 * sin(29 * M_PI / 16.0));
+- m_64apsk[22].real() = (r2 * cos(25 * M_PI / 16.0));
+- m_64apsk[22].imag() = (r2 * sin(25 * M_PI / 16.0));
+- m_64apsk[23].real() = (r2 * cos(27 * M_PI / 16.0));
+- m_64apsk[23].imag() = (r2 * sin(27 * M_PI / 16.0));
+- m_64apsk[24].real() = (r2 * cos(15 * M_PI / 16.0));
+- m_64apsk[24].imag() = (r2 * sin(15 * M_PI / 16.0));
+- m_64apsk[25].real() = (r2 * cos(13 * M_PI / 16.0));
+- m_64apsk[25].imag() = (r2 * sin(13 * M_PI / 16.0));
+- m_64apsk[26].real() = (r2 * cos(9 * M_PI / 16.0));
+- m_64apsk[26].imag() = (r2 * sin(9 * M_PI / 16.0));
+- m_64apsk[27].real() = (r2 * cos(11 * M_PI / 16.0));
+- m_64apsk[27].imag() = (r2 * sin(11 * M_PI / 16.0));
+- m_64apsk[28].real() = (r2 * cos(17 * M_PI / 16.0));
+- m_64apsk[28].imag() = (r2 * sin(17 * M_PI / 16.0));
+- m_64apsk[29].real() = (r2 * cos(19 * M_PI / 16.0));
+- m_64apsk[29].imag() = (r2 * sin(19 * M_PI / 16.0));
+- m_64apsk[30].real() = (r2 * cos(23 * M_PI / 16.0));
+- m_64apsk[30].imag() = (r2 * sin(23 * M_PI / 16.0));
+- m_64apsk[31].real() = (r2 * cos(21 * M_PI / 16.0));
+- m_64apsk[31].imag() = (r2 * sin(21 * M_PI / 16.0));
+- m_64apsk[32].real() = (r4 * cos(M_PI / 16.0));
+- m_64apsk[32].imag() = (r4 * sin(M_PI / 16.0));
+- m_64apsk[33].real() = (r4 * cos(3 * M_PI / 16.0));
+- m_64apsk[33].imag() = (r4 * sin(3 * M_PI / 16.0));
+- m_64apsk[34].real() = (r4 * cos(7 * M_PI / 16.0));
+- m_64apsk[34].imag() = (r4 * sin(7 * M_PI / 16.0));
+- m_64apsk[35].real() = (r4 * cos(5 * M_PI / 16.0));
+- m_64apsk[35].imag() = (r4 * sin(5 * M_PI / 16.0));
+- m_64apsk[36].real() = (r4 * cos(31 * M_PI / 16.0));
+- m_64apsk[36].imag() = (r4 * sin(31 * M_PI / 16.0));
+- m_64apsk[37].real() = (r4 * cos(29 * M_PI / 16.0));
+- m_64apsk[37].imag() = (r4 * sin(29 * M_PI / 16.0));
+- m_64apsk[38].real() = (r4 * cos(25 * M_PI / 16.0));
+- m_64apsk[38].imag() = (r4 * sin(25 * M_PI / 16.0));
+- m_64apsk[39].real() = (r4 * cos(27 * M_PI / 16.0));
+- m_64apsk[39].imag() = (r4 * sin(27 * M_PI / 16.0));
+- m_64apsk[40].real() = (r4 * cos(15 * M_PI / 16.0));
+- m_64apsk[40].imag() = (r4 * sin(15 * M_PI / 16.0));
+- m_64apsk[41].real() = (r4 * cos(13 * M_PI / 16.0));
+- m_64apsk[41].imag() = (r4 * sin(13 * M_PI / 16.0));
+- m_64apsk[42].real() = (r4 * cos(9 * M_PI / 16.0));
+- m_64apsk[42].imag() = (r4 * sin(9 * M_PI / 16.0));
+- m_64apsk[43].real() = (r4 * cos(11 * M_PI / 16.0));
+- m_64apsk[43].imag() = (r4 * sin(11 * M_PI / 16.0));
+- m_64apsk[44].real() = (r4 * cos(17 * M_PI / 16.0));
+- m_64apsk[44].imag() = (r4 * sin(17 * M_PI / 16.0));
+- m_64apsk[45].real() = (r4 * cos(19 * M_PI / 16.0));
+- m_64apsk[45].imag() = (r4 * sin(19 * M_PI / 16.0));
+- m_64apsk[46].real() = (r4 * cos(23 * M_PI / 16.0));
+- m_64apsk[46].imag() = (r4 * sin(23 * M_PI / 16.0));
+- m_64apsk[47].real() = (r4 * cos(21 * M_PI / 16.0));
+- m_64apsk[47].imag() = (r4 * sin(21 * M_PI / 16.0));
+- m_64apsk[48].real() = (r3 * cos(M_PI / 16.0));
+- m_64apsk[48].imag() = (r3 * sin(M_PI / 16.0));
+- m_64apsk[49].real() = (r3 * cos(3 * M_PI / 16.0));
+- m_64apsk[49].imag() = (r3 * sin(3 * M_PI / 16.0));
+- m_64apsk[50].real() = (r3 * cos(7 * M_PI / 16.0));
+- m_64apsk[50].imag() = (r3 * sin(7 * M_PI / 16.0));
+- m_64apsk[51].real() = (r3 * cos(5 * M_PI / 16.0));
+- m_64apsk[51].imag() = (r3 * sin(5 * M_PI / 16.0));
+- m_64apsk[52].real() = (r3 * cos(31 * M_PI / 16.0));
+- m_64apsk[52].imag() = (r3 * sin(31 * M_PI / 16.0));
+- m_64apsk[53].real() = (r3 * cos(29 * M_PI / 16.0));
+- m_64apsk[53].imag() = (r3 * sin(29 * M_PI / 16.0));
+- m_64apsk[54].real() = (r3 * cos(25 * M_PI / 16.0));
+- m_64apsk[54].imag() = (r3 * sin(25 * M_PI / 16.0));
+- m_64apsk[55].real() = (r3 * cos(27 * M_PI / 16.0));
+- m_64apsk[55].imag() = (r3 * sin(27 * M_PI / 16.0));
+- m_64apsk[56].real() = (r3 * cos(15 * M_PI / 16.0));
+- m_64apsk[56].imag() = (r3 * sin(15 * M_PI / 16.0));
+- m_64apsk[57].real() = (r3 * cos(13 * M_PI / 16.0));
+- m_64apsk[57].imag() = (r3 * sin(13 * M_PI / 16.0));
+- m_64apsk[58].real() = (r3 * cos(9 * M_PI / 16.0));
+- m_64apsk[58].imag() = (r3 * sin(9 * M_PI / 16.0));
+- m_64apsk[59].real() = (r3 * cos(11 * M_PI / 16.0));
+- m_64apsk[59].imag() = (r3 * sin(11 * M_PI / 16.0));
+- m_64apsk[60].real() = (r3 * cos(17 * M_PI / 16.0));
+- m_64apsk[60].imag() = (r3 * sin(17 * M_PI / 16.0));
+- m_64apsk[61].real() = (r3 * cos(19 * M_PI / 16.0));
+- m_64apsk[61].imag() = (r3 * sin(19 * M_PI / 16.0));
+- m_64apsk[62].real() = (r3 * cos(23 * M_PI / 16.0));
+- m_64apsk[62].imag() = (r3 * sin(23 * M_PI / 16.0));
+- m_64apsk[63].real() = (r3 * cos(21 * M_PI / 16.0));
+- m_64apsk[63].imag() = (r3 * sin(21 * M_PI / 16.0));
+- break;
+- case gr::dvbs2::MOD_8_16_20_20APSK:
+- r4 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C7_9:
+- case gr::dvbs2::C4_5:
+- r1 = r4 / 5.2;
+- r3 = r1 * 3.6;
+- r2 = r1 * 2.2;
+- break;
+- case gr::dvbs2::C5_6:
+- r1 = r4 / 5.0;
+- r3 = r1 * 3.5;
+- r2 = r1 * 2.2;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- break;
+- }
+- m_64apsk[0].real() = (r2 * cos(25 * M_PI / 16.0));
+- m_64apsk[0].imag() = (r2 * sin(25 * M_PI / 16.0));
+- m_64apsk[1].real() = (r4 * cos(7 * M_PI / 4.0));
+- m_64apsk[1].imag() = (r4 * sin(7 * M_PI / 4.0));
+- m_64apsk[2].real() = (r2 * cos(27 * M_PI / 16.0));
+- m_64apsk[2].imag() = (r2 * sin(27 * M_PI / 16.0));
+- m_64apsk[3].real() = (r3 * cos(7 * M_PI / 4.0));
+- m_64apsk[3].imag() = (r3 * sin(7 * M_PI / 4.0));
+- m_64apsk[4].real() = (r4 * cos(31 * M_PI / 20.0));
+- m_64apsk[4].imag() = (r4 * sin(31 * M_PI / 20.0));
+- m_64apsk[5].real() = (r4 * cos(33 * M_PI / 20.0));
+- m_64apsk[5].imag() = (r4 * sin(33 * M_PI / 20.0));
+- m_64apsk[6].real() = (r3 * cos(31 * M_PI / 20.0));
+- m_64apsk[6].imag() = (r3 * sin(31 * M_PI / 20.0));
+- m_64apsk[7].real() = (r3 * cos(33 * M_PI / 20.0));
+- m_64apsk[7].imag() = (r3 * sin(33 * M_PI / 20.0));
+- m_64apsk[8].real() = (r2 * cos(23 * M_PI / 16.0));
+- m_64apsk[8].imag() = (r2 * sin(23 * M_PI / 16.0));
+- m_64apsk[9].real() = (r4 * cos(5 * M_PI / 4.0));
+- m_64apsk[9].imag() = (r4 * sin(5 * M_PI / 4.0));
+- m_64apsk[10].real() = (r2 * cos(21 * M_PI / 16.0));
+- m_64apsk[10].imag() = (r2 * sin(21 * M_PI / 16.0));
+- m_64apsk[11].real() = (r3 * cos(5 * M_PI / 4.0));
+- m_64apsk[11].imag() = (r3 * sin(5 * M_PI / 4.0));
+- m_64apsk[12].real() = (r4 * cos(29 * M_PI / 20.0));
+- m_64apsk[12].imag() = (r4 * sin(29 * M_PI / 20.0));
+- m_64apsk[13].real() = (r4 * cos(27 * M_PI / 20.0));
+- m_64apsk[13].imag() = (r4 * sin(27 * M_PI / 20.0));
+- m_64apsk[14].real() = (r3 * cos(29 * M_PI / 20.0));
+- m_64apsk[14].imag() = (r3 * sin(29 * M_PI / 20.0));
+- m_64apsk[15].real() = (r3 * cos(27 * M_PI / 20.0));
+- m_64apsk[15].imag() = (r3 * sin(27 * M_PI / 20.0));
+- m_64apsk[16].real() = (r1 * cos(13 * M_PI / 8.0));
+- m_64apsk[16].imag() = (r1 * sin(13 * M_PI / 8.0));
+- m_64apsk[17].real() = (r4 * cos(37 * M_PI / 20.0));
+- m_64apsk[17].imag() = (r4 * sin(37 * M_PI / 20.0));
+- m_64apsk[18].real() = (r2 * cos(29 * M_PI / 16.0));
+- m_64apsk[18].imag() = (r2 * sin(29 * M_PI / 16.0));
+- m_64apsk[19].real() = (r3 * cos(37 * M_PI / 20.0));
+- m_64apsk[19].imag() = (r3 * sin(37 * M_PI / 20.0));
+- m_64apsk[20].real() = (r1 * cos(15 * M_PI / 8.0));
+- m_64apsk[20].imag() = (r1 * sin(15 * M_PI / 8.0));
+- m_64apsk[21].real() = (r4 * cos(39 * M_PI / 20.0));
+- m_64apsk[21].imag() = (r4 * sin(39 * M_PI / 20.0));
+- m_64apsk[22].real() = (r2 * cos(31 * M_PI / 16.0));
+- m_64apsk[22].imag() = (r2 * sin(31 * M_PI / 16.0));
+- m_64apsk[23].real() = (r3 * cos(39 * M_PI / 20.0));
+- m_64apsk[23].imag() = (r3 * sin(39 * M_PI / 20.0));
+- m_64apsk[24].real() = (r1 * cos(11 * M_PI / 8.0));
+- m_64apsk[24].imag() = (r1 * sin(11 * M_PI / 8.0));
+- m_64apsk[25].real() = (r4 * cos(23 * M_PI / 20.0));
+- m_64apsk[25].imag() = (r4 * sin(23 * M_PI / 20.0));
+- m_64apsk[26].real() = (r2 * cos(19 * M_PI / 16.0));
+- m_64apsk[26].imag() = (r2 * sin(19 * M_PI / 16.0));
+- m_64apsk[27].real() = (r3 * cos(23 * M_PI / 20.0));
+- m_64apsk[27].imag() = (r3 * sin(23 * M_PI / 20.0));
+- m_64apsk[28].real() = (r1 * cos(9 * M_PI / 8.0));
+- m_64apsk[28].imag() = (r1 * sin(9 * M_PI / 8.0));
+- m_64apsk[29].real() = (r4 * cos(21 * M_PI / 20.0));
+- m_64apsk[29].imag() = (r4 * sin(21 * M_PI / 20.0));
+- m_64apsk[30].real() = (r2 * cos(17 * M_PI / 16.0));
+- m_64apsk[30].imag() = (r2 * sin(17 * M_PI / 16.0));
+- m_64apsk[31].real() = (r3 * cos(21 * M_PI / 20.0));
+- m_64apsk[31].imag() = (r3 * sin(21 * M_PI / 20.0));
+- m_64apsk[32].real() = (r2 * cos(7 * M_PI / 16.0));
+- m_64apsk[32].imag() = (r2 * sin(7 * M_PI / 16.0));
+- m_64apsk[33].real() = (r4 * cos(M_PI / 4.0));
+- m_64apsk[33].imag() = (r4 * sin(M_PI / 4.0));
+- m_64apsk[34].real() = (r2 * cos(5 * M_PI / 16.0));
+- m_64apsk[34].imag() = (r2 * sin(5 * M_PI / 16.0));
+- m_64apsk[35].real() = (r3 * cos(M_PI / 4.0));
+- m_64apsk[35].imag() = (r3 * sin(M_PI / 4.0));
+- m_64apsk[36].real() = (r4 * cos(9 * M_PI / 20.0));
+- m_64apsk[36].imag() = (r4 * sin(9 * M_PI / 20.0));
+- m_64apsk[37].real() = (r4 * cos(7 * M_PI / 20.0));
+- m_64apsk[37].imag() = (r4 * sin(7 * M_PI / 20.0));
+- m_64apsk[38].real() = (r3 * cos(9 * M_PI / 20.0));
+- m_64apsk[38].imag() = (r3 * sin(9 * M_PI / 20.0));
+- m_64apsk[39].real() = (r3 * cos(7 * M_PI / 20.0));
+- m_64apsk[39].imag() = (r3 * sin(7 * M_PI / 20.0));
+- m_64apsk[40].real() = (r2 * cos(9 * M_PI / 16.0));
+- m_64apsk[40].imag() = (r2 * sin(9 * M_PI / 16.0));
+- m_64apsk[41].real() = (r4 * cos(3 * M_PI / 4.0));
+- m_64apsk[41].imag() = (r4 * sin(3 * M_PI / 4.0));
+- m_64apsk[42].real() = (r2 * cos(11 * M_PI / 16.0));
+- m_64apsk[42].imag() = (r2 * sin(11 * M_PI / 16.0));
+- m_64apsk[43].real() = (r3 * cos(3 * M_PI / 4.0));
+- m_64apsk[43].imag() = (r3 * sin(3 * M_PI / 4.0));
+- m_64apsk[44].real() = (r4 * cos(11 * M_PI / 20.0));
+- m_64apsk[44].imag() = (r4 * sin(11 * M_PI / 20.0));
+- m_64apsk[45].real() = (r4 * cos(13 * M_PI / 20.0));
+- m_64apsk[45].imag() = (r4 * sin(13 * M_PI / 20.0));
+- m_64apsk[46].real() = (r3 * cos(11 * M_PI / 20.0));
+- m_64apsk[46].imag() = (r3 * sin(11 * M_PI / 20.0));
+- m_64apsk[47].real() = (r3 * cos(13 * M_PI / 20.0));
+- m_64apsk[47].imag() = (r3 * sin(13 * M_PI / 20.0));
+- m_64apsk[48].real() = (r1 * cos(3 * M_PI / 8.0));
+- m_64apsk[48].imag() = (r1 * sin(3 * M_PI / 8.0));
+- m_64apsk[49].real() = (r4 * cos(3 * M_PI / 20.0));
+- m_64apsk[49].imag() = (r4 * sin(3 * M_PI / 20.0));
+- m_64apsk[50].real() = (r2 * cos(3 * M_PI / 16.0));
+- m_64apsk[50].imag() = (r2 * sin(3 * M_PI / 16.0));
+- m_64apsk[51].real() = (r3 * cos(3 * M_PI / 20.0));
+- m_64apsk[51].imag() = (r3 * sin(3 * M_PI / 20.0));
+- m_64apsk[52].real() = (r1 * cos(M_PI / 8.0));
+- m_64apsk[52].imag() = (r1 * sin(M_PI / 8.0));
+- m_64apsk[53].real() = (r4 * cos(M_PI / 20.0));
+- m_64apsk[53].imag() = (r4 * sin(M_PI / 20.0));
+- m_64apsk[54].real() = (r2 * cos(M_PI / 16.0));
+- m_64apsk[54].imag() = (r2 * sin(M_PI / 16.0));
+- m_64apsk[55].real() = (r3 * cos(M_PI / 20.0));
+- m_64apsk[55].imag() = (r3 * sin(M_PI / 20.0));
+- m_64apsk[56].real() = (r1 * cos(5 * M_PI / 8.0));
+- m_64apsk[56].imag() = (r1 * sin(5 * M_PI / 8.0));
+- m_64apsk[57].real() = (r4 * cos(17 * M_PI / 20.0));
+- m_64apsk[57].imag() = (r4 * sin(17 * M_PI / 20.0));
+- m_64apsk[58].real() = (r2 * cos(13 * M_PI / 16.0));
+- m_64apsk[58].imag() = (r2 * sin(13 * M_PI / 16.0));
+- m_64apsk[59].real() = (r3 * cos(17 * M_PI / 20.0));
+- m_64apsk[59].imag() = (r3 * sin(17 * M_PI / 20.0));
+- m_64apsk[60].real() = (r1 * cos(7 * M_PI / 8.0));
+- m_64apsk[60].imag() = (r1 * sin(7 * M_PI / 8.0));
+- m_64apsk[61].real() = (r4 * cos(19 * M_PI / 20.0));
+- m_64apsk[61].imag() = (r4 * sin(19 * M_PI / 20.0));
+- m_64apsk[62].real() = (r2 * cos(15 * M_PI / 16.0));
+- m_64apsk[62].imag() = (r2 * sin(15 * M_PI / 16.0));
+- m_64apsk[63].real() = (r3 * cos(19 * M_PI / 20.0));
+- m_64apsk[63].imag() = (r3 * sin(19 * M_PI / 20.0));
+- break;
+- case gr::dvbs2::MOD_4_12_20_28APSK:
+- r4 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C132_180:
+- r1 = r4 / 7.0;
+- r3 = r1 * 4.3;
+- r2 = r1 * 2.4;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- break;
+- }
+- m_64apsk[0].real() = (r4 * cos(M_PI / 4.0));
+- m_64apsk[0].imag() = (r4 * sin(M_PI / 4.0));
+- m_64apsk[1].real() = (r4 * cos(7 * M_PI / 4.0));
+- m_64apsk[1].imag() = (r4 * sin(7 * M_PI / 4.0));
+- m_64apsk[2].real() = (r4 * cos(3 * M_PI / 4.0));
+- m_64apsk[2].imag() = (r4 * sin(3 * M_PI / 4.0));
+- m_64apsk[3].real() = (r4 * cos(5 * M_PI / 4.0));
+- m_64apsk[3].imag() = (r4 * sin(5 * M_PI / 4.0));
+- m_64apsk[4].real() = (r4 * cos(13 * M_PI / 28.0));
+- m_64apsk[4].imag() = (r4 * sin(13 * M_PI / 28.0));
+- m_64apsk[5].real() = (r4 * cos(43 * M_PI / 28.0));
+- m_64apsk[5].imag() = (r4 * sin(43 * M_PI / 28.0));
+- m_64apsk[6].real() = (r4 * cos(15 * M_PI / 28.0));
+- m_64apsk[6].imag() = (r4 * sin(15 * M_PI / 28.0));
+- m_64apsk[7].real() = (r4 * cos(41 * M_PI / 28.0));
+- m_64apsk[7].imag() = (r4 * sin(41 * M_PI / 28.0));
+- m_64apsk[8].real() = (r4 * cos(M_PI / 28.0));
+- m_64apsk[8].imag() = (r4 * sin(M_PI / 28.0));
+- m_64apsk[9].real() = (r4 * cos(55 * M_PI / 28.0));
+- m_64apsk[9].imag() = (r4 * sin(55 * M_PI / 28.0));
+- m_64apsk[10].real() = (r4 * cos(27 * M_PI / 28.0));
+- m_64apsk[10].imag() = (r4 * sin(27 * M_PI / 28.0));
+- m_64apsk[11].real() = (r4 * cos(29 * M_PI / 28.0));
+- m_64apsk[11].imag() = (r4 * sin(29 * M_PI / 28.0));
+- m_64apsk[12].real() = (r1 * cos(M_PI / 4.0));
+- m_64apsk[12].imag() = (r1 * sin(M_PI / 4.0));
+- m_64apsk[13].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_64apsk[13].imag() = (r1 * sin(7 * M_PI / 4.0));
+- m_64apsk[14].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_64apsk[14].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_64apsk[15].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_64apsk[15].imag() = (r1 * sin(5 * M_PI / 4.0));
+- m_64apsk[16].real() = (r4 * cos(9 * M_PI / 28.0));
+- m_64apsk[16].imag() = (r4 * sin(9 * M_PI / 28.0));
+- m_64apsk[17].real() = (r4 * cos(47 * M_PI / 28.0));
+- m_64apsk[17].imag() = (r4 * sin(47 * M_PI / 28.0));
+- m_64apsk[18].real() = (r4 * cos(19 * M_PI / 28.0));
+- m_64apsk[18].imag() = (r4 * sin(19 * M_PI / 28.0));
+- m_64apsk[19].real() = (r4 * cos(37 * M_PI / 28.0));
+- m_64apsk[19].imag() = (r4 * sin(37 * M_PI / 28.0));
+- m_64apsk[20].real() = (r4 * cos(11 * M_PI / 28.0));
+- m_64apsk[20].imag() = (r4 * sin(11 * M_PI / 28.0));
+- m_64apsk[21].real() = (r4 * cos(45 * M_PI / 28.0));
+- m_64apsk[21].imag() = (r4 * sin(45 * M_PI / 28.0));
+- m_64apsk[22].real() = (r4 * cos(17 * M_PI / 28.0));
+- m_64apsk[22].imag() = (r4 * sin(17 * M_PI / 28.0));
+- m_64apsk[23].real() = (r4 * cos(39 * M_PI / 28.0));
+- m_64apsk[23].imag() = (r4 * sin(39 * M_PI / 28.0));
+- m_64apsk[24].real() = (r3 * cos(M_PI / 20.0));
+- m_64apsk[24].imag() = (r3 * sin(M_PI / 20.0));
+- m_64apsk[25].real() = (r3 * cos(39 * M_PI / 20.0));
+- m_64apsk[25].imag() = (r3 * sin(39 * M_PI / 20.0));
+- m_64apsk[26].real() = (r3 * cos(19 * M_PI / 20.0));
+- m_64apsk[26].imag() = (r3 * sin(19 * M_PI / 20.0));
+- m_64apsk[27].real() = (r3 * cos(21 * M_PI / 20.0));
+- m_64apsk[27].imag() = (r3 * sin(21 * M_PI / 20.0));
+- m_64apsk[28].real() = (r2 * cos(M_PI / 12.0));
+- m_64apsk[28].imag() = (r2 * sin(M_PI / 12.0));
+- m_64apsk[29].real() = (r2 * cos(23 * M_PI / 12.0));
+- m_64apsk[29].imag() = (r2 * sin(23 * M_PI / 12.0));
+- m_64apsk[30].real() = (r2 * cos(11 * M_PI / 12.0));
+- m_64apsk[30].imag() = (r2 * sin(11 * M_PI / 12.0));
+- m_64apsk[31].real() = (r2 * cos(13 * M_PI / 12.0));
+- m_64apsk[31].imag() = (r2 * sin(13 * M_PI / 12.0));
+- m_64apsk[32].real() = (r4 * cos(5 * M_PI / 28.0));
+- m_64apsk[32].imag() = (r4 * sin(5 * M_PI / 28.0));
+- m_64apsk[33].real() = (r4 * cos(51 * M_PI / 28.0));
+- m_64apsk[33].imag() = (r4 * sin(51 * M_PI / 28.0));
+- m_64apsk[34].real() = (r4 * cos(23 * M_PI / 28.0));
+- m_64apsk[34].imag() = (r4 * sin(23 * M_PI / 28.0));
+- m_64apsk[35].real() = (r4 * cos(33 * M_PI / 28.0));
+- m_64apsk[35].imag() = (r4 * sin(33 * M_PI / 28.0));
+- m_64apsk[36].real() = (r3 * cos(9 * M_PI / 20.0));
+- m_64apsk[36].imag() = (r3 * sin(9 * M_PI / 20.0));
+- m_64apsk[37].real() = (r3 * cos(31 * M_PI / 20.0));
+- m_64apsk[37].imag() = (r3 * sin(31 * M_PI / 20.0));
+- m_64apsk[38].real() = (r3 * cos(11 * M_PI / 20.0));
+- m_64apsk[38].imag() = (r3 * sin(11 * M_PI / 20.0));
+- m_64apsk[39].real() = (r3 * cos(29 * M_PI / 20.0));
+- m_64apsk[39].imag() = (r3 * sin(29 * M_PI / 20.0));
+- m_64apsk[40].real() = (r4 * cos(3 * M_PI / 28.0));
+- m_64apsk[40].imag() = (r4 * sin(3 * M_PI / 28.0));
+- m_64apsk[41].real() = (r4 * cos(53 * M_PI / 28.0));
+- m_64apsk[41].imag() = (r4 * sin(53 * M_PI / 28.0));
+- m_64apsk[42].real() = (r4 * cos(25 * M_PI / 28.0));
+- m_64apsk[42].imag() = (r4 * sin(25 * M_PI / 28.0));
+- m_64apsk[43].real() = (r4 * cos(31 * M_PI / 28.0));
+- m_64apsk[43].imag() = (r4 * sin(31 * M_PI / 28.0));
+- m_64apsk[44].real() = (r2 * cos(5 * M_PI / 12.0));
+- m_64apsk[44].imag() = (r2 * sin(5 * M_PI / 12.0));
+- m_64apsk[45].real() = (r2 * cos(19 * M_PI / 12.0));
+- m_64apsk[45].imag() = (r2 * sin(19 * M_PI / 12.0));
+- m_64apsk[46].real() = (r2 * cos(7 * M_PI / 12.0));
+- m_64apsk[46].imag() = (r2 * sin(7 * M_PI / 12.0));
+- m_64apsk[47].real() = (r2 * cos(17 * M_PI / 12.0));
+- m_64apsk[47].imag() = (r2 * sin(17 * M_PI / 12.0));
+- m_64apsk[48].real() = (r3 * cos(M_PI / 4.0));
+- m_64apsk[48].imag() = (r3 * sin(M_PI / 4.0));
+- m_64apsk[49].real() = (r3 * cos(7 * M_PI / 4.0));
+- m_64apsk[49].imag() = (r3 * sin(7 * M_PI / 4.0));
+- m_64apsk[50].real() = (r3 * cos(3 * M_PI / 4.0));
+- m_64apsk[50].imag() = (r3 * sin(3 * M_PI / 4.0));
+- m_64apsk[51].real() = (r3 * cos(5 * M_PI / 4.0));
+- m_64apsk[51].imag() = (r3 * sin(5 * M_PI / 4.0));
+- m_64apsk[52].real() = (r3 * cos(7 * M_PI / 20.0));
+- m_64apsk[52].imag() = (r3 * sin(7 * M_PI / 20.0));
+- m_64apsk[53].real() = (r3 * cos(33 * M_PI / 20.0));
+- m_64apsk[53].imag() = (r3 * sin(33 * M_PI / 20.0));
+- m_64apsk[54].real() = (r3 * cos(13 * M_PI / 20.0));
+- m_64apsk[54].imag() = (r3 * sin(13 * M_PI / 20.0));
+- m_64apsk[55].real() = (r3 * cos(27 * M_PI / 20.0));
+- m_64apsk[55].imag() = (r3 * sin(27 * M_PI / 20.0));
+- m_64apsk[56].real() = (r3 * cos(3 * M_PI / 20.0));
+- m_64apsk[56].imag() = (r3 * sin(3 * M_PI / 20.0));
+- m_64apsk[57].real() = (r3 * cos(37 * M_PI / 20.0));
+- m_64apsk[57].imag() = (r3 * sin(37 * M_PI / 20.0));
+- m_64apsk[58].real() = (r3 * cos(17 * M_PI / 20.0));
+- m_64apsk[58].imag() = (r3 * sin(17 * M_PI / 20.0));
+- m_64apsk[59].real() = (r3 * cos(23 * M_PI / 20.0));
+- m_64apsk[59].imag() = (r3 * sin(23 * M_PI / 20.0));
+- m_64apsk[60].real() = (r2 * cos(M_PI / 4.0));
+- m_64apsk[60].imag() = (r2 * sin(M_PI / 4.0));
+- m_64apsk[61].real() = (r2 * cos(7 * M_PI / 4.0));
+- m_64apsk[61].imag() = (r2 * sin(7 * M_PI / 4.0));
+- m_64apsk[62].real() = (r2 * cos(3 * M_PI / 4.0));
+- m_64apsk[62].imag() = (r2 * sin(3 * M_PI / 4.0));
+- m_64apsk[63].real() = (r2 * cos(5 * M_PI / 4.0));
+- m_64apsk[63].imag() = (r2 * sin(5 * M_PI / 4.0));
+- break;
+- case gr::dvbs2::MOD_128APSK:
+- r6 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C135_180:
+- r1 = r6 / 3.819;
+- r5 = r1 * 2.75;
+- r4 = r1 * 2.681;
+- r3 = r1 * 2.118;
+- r2 = r1 * 1.715;
+- break;
+- case gr::dvbs2::C140_180:
+- r1 = r6 / 3.733;
+- r5 = r1 * 2.75;
+- r4 = r1 * 2.681;
+- r3 = r1 * 2.118;
+- r2 = r1 * 1.715;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- r4 = 0;
+- r5 = 0;
+- break;
+- }
+- m_128apsk[0].real() = (r1 * cos(83 * M_PI / 1260.0));
+- m_128apsk[0].imag() = (r1 * sin(83 * M_PI / 1260.0));
+- m_128apsk[1].real() = (r6 * cos(11 * M_PI / 105.0));
+- m_128apsk[1].imag() = (r6 * sin(11 * M_PI / 105.0));
+- m_128apsk[2].real() = (r6 * cos(37 * M_PI / 1680.0));
+- m_128apsk[2].imag() = (r6 * sin(37 * M_PI / 1680.0));
+- m_128apsk[3].real() = (r6 * cos(11 * M_PI / 168.0));
+- m_128apsk[3].imag() = (r6 * sin(11 * M_PI / 168.0));
+- m_128apsk[4].real() = (r2 * cos(121 * M_PI / 2520.0));
+- m_128apsk[4].imag() = (r2 * sin(121 * M_PI / 2520.0));
+- m_128apsk[5].real() = (r3 * cos(23 * M_PI / 280.0));
+- m_128apsk[5].imag() = (r3 * sin(23 * M_PI / 280.0));
+- m_128apsk[6].real() = (r5 * cos(19 * M_PI / 720.0));
+- m_128apsk[6].imag() = (r5 * sin(19 * M_PI / 720.0));
+- m_128apsk[7].real() = (r4 * cos(61 * M_PI / 720.0));
+- m_128apsk[7].imag() = (r4 * sin(61 * M_PI / 720.0));
+- m_128apsk[8].real() = (r1 * cos(103 * M_PI / 560.0));
+- m_128apsk[8].imag() = (r1 * sin(103 * M_PI / 560.0));
+- m_128apsk[9].real() = (r6 * cos(61 * M_PI / 420.0));
+- m_128apsk[9].imag() = (r6 * sin(61 * M_PI / 420.0));
+- m_128apsk[10].real() = (r6 * cos(383 * M_PI / 1680.0));
+- m_128apsk[10].imag() = (r6 * sin(383 * M_PI / 1680.0));
+- m_128apsk[11].real() = (r6 * cos(929 * M_PI / 5040.0));
+- m_128apsk[11].imag() = (r6 * sin(929 * M_PI / 5040.0));
+- m_128apsk[12].real() = (r2 * cos(113 * M_PI / 560.0));
+- m_128apsk[12].imag() = (r2 * sin(113 * M_PI / 560.0));
+- m_128apsk[13].real() = (r3 * cos(169 * M_PI / 1008.0));
+- m_128apsk[13].imag() = (r3 * sin(169 * M_PI / 1008.0));
+- m_128apsk[14].real() = (r5 * cos(563 * M_PI / 2520.0));
+- m_128apsk[14].imag() = (r5 * sin(563 * M_PI / 2520.0));
+- m_128apsk[15].real() = (r4 * cos(139 * M_PI / 840.0));
+- m_128apsk[15].imag() = (r4 * sin(139 * M_PI / 840.0));
+- m_128apsk[16].real() = (r1 * cos(243 * M_PI / 560.0));
+- m_128apsk[16].imag() = (r1 * sin(243 * M_PI / 560.0));
+- m_128apsk[17].real() = (r6 * cos(1993 * M_PI / 5040.0));
+- m_128apsk[17].imag() = (r6 * sin(1993 * M_PI / 5040.0));
+- m_128apsk[18].real() = (r6 * cos(43 * M_PI / 90.0));
+- m_128apsk[18].imag() = (r6 * sin(43 * M_PI / 90.0));
+- m_128apsk[19].real() = (r6 * cos(73 * M_PI / 168.0));
+- m_128apsk[19].imag() = (r6 * sin(73 * M_PI / 168.0));
+- m_128apsk[20].real() = (r2 * cos(1139 * M_PI / 2520.0));
+- m_128apsk[20].imag() = (r2 * sin(1139 * M_PI / 2520.0));
+- m_128apsk[21].real() = (r3 * cos(117 * M_PI / 280.0));
+- m_128apsk[21].imag() = (r3 * sin(117 * M_PI / 280.0));
+- m_128apsk[22].real() = (r5 * cos(341 * M_PI / 720.0));
+- m_128apsk[22].imag() = (r5 * sin(341 * M_PI / 720.0));
+- m_128apsk[23].real() = (r4 * cos(349 * M_PI / 840.0));
+- m_128apsk[23].imag() = (r4 * sin(349 * M_PI / 840.0));
+- m_128apsk[24].real() = (r1 * cos(177 * M_PI / 560.0));
+- m_128apsk[24].imag() = (r1 * sin(177 * M_PI / 560.0));
+- m_128apsk[25].real() = (r6 * cos(1789 * M_PI / 5040.0));
+- m_128apsk[25].imag() = (r6 * sin(1789 * M_PI / 5040.0));
+- m_128apsk[26].real() = (r6 * cos(49 * M_PI / 180.0));
+- m_128apsk[26].imag() = (r6 * sin(49 * M_PI / 180.0));
+- m_128apsk[27].real() = (r6 * cos(53 * M_PI / 168.0));
+- m_128apsk[27].imag() = (r6 * sin(53 * M_PI / 168.0));
+- m_128apsk[28].real() = (r2 * cos(167 * M_PI / 560.0));
+- m_128apsk[28].imag() = (r2 * sin(167 * M_PI / 560.0));
+- m_128apsk[29].real() = (r3 * cos(239 * M_PI / 720.0));
+- m_128apsk[29].imag() = (r3 * sin(239 * M_PI / 720.0));
+- m_128apsk[30].real() = (r5 * cos(199 * M_PI / 720.0));
+- m_128apsk[30].imag() = (r5 * sin(199 * M_PI / 720.0));
+- m_128apsk[31].real() = (r4 * cos(281 * M_PI / 840.0));
+- m_128apsk[31].imag() = (r4 * sin(281 * M_PI / 840.0));
+- m_128apsk[32].real() = (r1 * cos(1177 * M_PI / 1260.0));
+- m_128apsk[32].imag() = (r1 * sin(1177 * M_PI / 1260.0));
+- m_128apsk[33].real() = (r6 * cos(94 * M_PI / 105.0));
+- m_128apsk[33].imag() = (r6 * sin(94 * M_PI / 105.0));
+- m_128apsk[34].real() = (r6 * cos(1643 * M_PI / 1680.0));
+- m_128apsk[34].imag() = (r6 * sin(1643 * M_PI / 1680.0));
+- m_128apsk[35].real() = (r6 * cos(157 * M_PI / 168.0));
+- m_128apsk[35].imag() = (r6 * sin(157 * M_PI / 168.0));
+- m_128apsk[36].real() = (r2 * cos(2399 * M_PI / 2520.0));
+- m_128apsk[36].imag() = (r2 * sin(2399 * M_PI / 2520.0));
+- m_128apsk[37].real() = (r3 * cos(257 * M_PI / 280.0));
+- m_128apsk[37].imag() = (r3 * sin(257 * M_PI / 280.0));
+- m_128apsk[38].real() = (r5 * cos(701 * M_PI / 720.0));
+- m_128apsk[38].imag() = (r5 * sin(701 * M_PI / 720.0));
+- m_128apsk[39].real() = (r4 * cos(659 * M_PI / 720.0));
+- m_128apsk[39].imag() = (r4 * sin(659 * M_PI / 720.0));
+- m_128apsk[40].real() = (r1 * cos(457 * M_PI / 560.0));
+- m_128apsk[40].imag() = (r1 * sin(457 * M_PI / 560.0));
+- m_128apsk[41].real() = (r6 * cos(359 * M_PI / 420.0));
+- m_128apsk[41].imag() = (r6 * sin(359 * M_PI / 420.0));
+- m_128apsk[42].real() = (r6 * cos(1297 * M_PI / 1680.0));
+- m_128apsk[42].imag() = (r6 * sin(1297 * M_PI / 1680.0));
+- m_128apsk[43].real() = (r6 * cos(4111 * M_PI / 5040.0));
+- m_128apsk[43].imag() = (r6 * sin(4111 * M_PI / 5040.0));
+- m_128apsk[44].real() = (r2 * cos(447 * M_PI / 560.0));
+- m_128apsk[44].imag() = (r2 * sin(447 * M_PI / 560.0));
+- m_128apsk[45].real() = (r3 * cos(839 * M_PI / 1008.0));
+- m_128apsk[45].imag() = (r3 * sin(839 * M_PI / 1008.0));
+- m_128apsk[46].real() = (r5 * cos(1957 * M_PI / 2520.0));
+- m_128apsk[46].imag() = (r5 * sin(1957 * M_PI / 2520.0));
+- m_128apsk[47].real() = (r4 * cos(701 * M_PI / 840.0));
+- m_128apsk[47].imag() = (r4 * sin(701 * M_PI / 840.0));
+- m_128apsk[48].real() = (r1 * cos(317 * M_PI / 560.0));
+- m_128apsk[48].imag() = (r1 * sin(317 * M_PI / 560.0));
+- m_128apsk[49].real() = (r6 * cos(3047 * M_PI / 5040.0));
+- m_128apsk[49].imag() = (r6 * sin(3047 * M_PI / 5040.0));
+- m_128apsk[50].real() = (r6 * cos(47 * M_PI / 90.0));
+- m_128apsk[50].imag() = (r6 * sin(47 * M_PI / 90.0));
+- m_128apsk[51].real() = (r6 * cos(95 * M_PI / 168.0));
+- m_128apsk[51].imag() = (r6 * sin(95 * M_PI / 168.0));
+- m_128apsk[52].real() = (r2 * cos(1381 * M_PI / 2520.0));
+- m_128apsk[52].imag() = (r2 * sin(1381 * M_PI / 2520.0));
+- m_128apsk[53].real() = (r3 * cos(163 * M_PI / 280.0));
+- m_128apsk[53].imag() = (r3 * sin(163 * M_PI / 280.0));
+- m_128apsk[54].real() = (r5 * cos(379 * M_PI / 720.0));
+- m_128apsk[54].imag() = (r5 * sin(379 * M_PI / 720.0));
+- m_128apsk[55].real() = (r4 * cos(491 * M_PI / 840.0));
+- m_128apsk[55].imag() = (r4 * sin(491 * M_PI / 840.0));
+- m_128apsk[56].real() = (r1 * cos(383 * M_PI / 560.0));
+- m_128apsk[56].imag() = (r1 * sin(383 * M_PI / 560.0));
+- m_128apsk[57].real() = (r6 * cos(3251 * M_PI / 5040.0));
+- m_128apsk[57].imag() = (r6 * sin(3251 * M_PI / 5040.0));
+- m_128apsk[58].real() = (r6 * cos(131 * M_PI / 180.0));
+- m_128apsk[58].imag() = (r6 * sin(131 * M_PI / 180.0));
+- m_128apsk[59].real() = (r6 * cos(115 * M_PI / 168.0));
+- m_128apsk[59].imag() = (r6 * sin(115 * M_PI / 168.0));
+- m_128apsk[60].real() = (r2 * cos(393 * M_PI / 560.0));
+- m_128apsk[60].imag() = (r2 * sin(393 * M_PI / 560.0));
+- m_128apsk[61].real() = (r3 * cos(481 * M_PI / 720.0));
+- m_128apsk[61].imag() = (r3 * sin(481 * M_PI / 720.0));
+- m_128apsk[62].real() = (r5 * cos(521 * M_PI / 720.0));
+- m_128apsk[62].imag() = (r5 * sin(521 * M_PI / 720.0));
+- m_128apsk[63].real() = (r4 * cos(559 * M_PI / 840.0));
+- m_128apsk[63].imag() = (r4 * sin(559 * M_PI / 840.0));
+- m_128apsk[64].real() = (r1 * cos(2437 * M_PI / 1260.0));
+- m_128apsk[64].imag() = (r1 * sin(2437 * M_PI / 1260.0));
+- m_128apsk[65].real() = (r6 * cos(199 * M_PI / 105.0));
+- m_128apsk[65].imag() = (r6 * sin(199 * M_PI / 105.0));
+- m_128apsk[66].real() = (r6 * cos(3323 * M_PI / 1680.0));
+- m_128apsk[66].imag() = (r6 * sin(3323 * M_PI / 1680.0));
+- m_128apsk[67].real() = (r6 * cos(325 * M_PI / 168.0));
+- m_128apsk[67].imag() = (r6 * sin(325 * M_PI / 168.0));
+- m_128apsk[68].real() = (r2 * cos(4919 * M_PI / 2520.0));
+- m_128apsk[68].imag() = (r2 * sin(4919 * M_PI / 2520.0));
+- m_128apsk[69].real() = (r3 * cos(537 * M_PI / 280.0));
+- m_128apsk[69].imag() = (r3 * sin(537 * M_PI / 280.0));
+- m_128apsk[70].real() = (r5 * cos(1421 * M_PI / 720.0));
+- m_128apsk[70].imag() = (r5 * sin(1421 * M_PI / 720.0));
+- m_128apsk[71].real() = (r4 * cos(1379 * M_PI / 720.0));
+- m_128apsk[71].imag() = (r4 * sin(1379 * M_PI / 720.0));
+- m_128apsk[72].real() = (r1 * cos(1017 * M_PI / 560.0));
+- m_128apsk[72].imag() = (r1 * sin(1017 * M_PI / 560.0));
+- m_128apsk[73].real() = (r6 * cos(779 * M_PI / 420.0));
+- m_128apsk[73].imag() = (r6 * sin(779 * M_PI / 420.0));
+- m_128apsk[74].real() = (r6 * cos(2977 * M_PI / 1680.0));
+- m_128apsk[74].imag() = (r6 * sin(2977 * M_PI / 1680.0));
+- m_128apsk[75].real() = (r6 * cos(9151 * M_PI / 5040.0));
+- m_128apsk[75].imag() = (r6 * sin(9151 * M_PI / 5040.0));
+- m_128apsk[76].real() = (r2 * cos(1007 * M_PI / 560.0));
+- m_128apsk[76].imag() = (r2 * sin(1007 * M_PI / 560.0));
+- m_128apsk[77].real() = (r3 * cos(1847 * M_PI / 1008.0));
+- m_128apsk[77].imag() = (r3 * sin(1847 * M_PI / 1008.0));
+- m_128apsk[78].real() = (r5 * cos(4477 * M_PI / 2520.0));
+- m_128apsk[78].imag() = (r5 * sin(4477 * M_PI / 2520.0));
+- m_128apsk[79].real() = (r4 * cos(1541 * M_PI / 840.0));
+- m_128apsk[79].imag() = (r4 * sin(1541 * M_PI / 840.0));
+- m_128apsk[80].real() = (r1 * cos(877 * M_PI / 560.0));
+- m_128apsk[80].imag() = (r1 * sin(877 * M_PI / 560.0));
+- m_128apsk[81].real() = (r6 * cos(8087 * M_PI / 5040.0));
+- m_128apsk[81].imag() = (r6 * sin(8087 * M_PI / 5040.0));
+- m_128apsk[82].real() = (r6 * cos(137 * M_PI / 90.0));
+- m_128apsk[82].imag() = (r6 * sin(137 * M_PI / 90.0));
+- m_128apsk[83].real() = (r6 * cos(263 * M_PI / 168.0));
+- m_128apsk[83].imag() = (r6 * sin(263 * M_PI / 168.0));
+- m_128apsk[84].real() = (r2 * cos(3901 * M_PI / 2520.0));
+- m_128apsk[84].imag() = (r2 * sin(3901 * M_PI / 2520.0));
+- m_128apsk[85].real() = (r3 * cos(443 * M_PI / 280.0));
+- m_128apsk[85].imag() = (r3 * sin(443 * M_PI / 280.0));
+- m_128apsk[86].real() = (r5 * cos(1099 * M_PI / 720.0));
+- m_128apsk[86].imag() = (r5 * sin(1099 * M_PI / 720.0));
+- m_128apsk[87].real() = (r4 * cos(1331 * M_PI / 840.0));
+- m_128apsk[87].imag() = (r4 * sin(1331 * M_PI / 840.0));
+- m_128apsk[88].real() = (r1 * cos(943 * M_PI / 560.0));
+- m_128apsk[88].imag() = (r1 * sin(943 * M_PI / 560.0));
+- m_128apsk[89].real() = (r6 * cos(8291 * M_PI / 5040.0));
+- m_128apsk[89].imag() = (r6 * sin(8291 * M_PI / 5040.0));
+- m_128apsk[90].real() = (r6 * cos(311 * M_PI / 180.0));
+- m_128apsk[90].imag() = (r6 * sin(311 * M_PI / 180.0));
+- m_128apsk[91].real() = (r6 * cos(283 * M_PI / 168.0));
+- m_128apsk[91].imag() = (r6 * sin(283 * M_PI / 168.0));
+- m_128apsk[92].real() = (r2 * cos(953 * M_PI / 560.0));
+- m_128apsk[92].imag() = (r2 * sin(953 * M_PI / 560.0));
+- m_128apsk[93].real() = (r3 * cos(1201 * M_PI / 720.0));
+- m_128apsk[93].imag() = (r3 * sin(1201 * M_PI / 720.0));
+- m_128apsk[94].real() = (r5 * cos(1241 * M_PI / 720.0));
+- m_128apsk[94].imag() = (r5 * sin(1241 * M_PI / 720.0));
+- m_128apsk[95].real() = (r4 * cos(1399 * M_PI / 840.0));
+- m_128apsk[95].imag() = (r4 * sin(1399 * M_PI / 840.0));
+- m_128apsk[96].real() = (r1 * cos(1343 * M_PI / 1260.0));
+- m_128apsk[96].imag() = (r1 * sin(1343 * M_PI / 1260.0));
+- m_128apsk[97].real() = (r6 * cos(116 * M_PI / 105.0));
+- m_128apsk[97].imag() = (r6 * sin(116 * M_PI / 105.0));
+- m_128apsk[98].real() = (r6 * cos(1717 * M_PI / 1680.0));
+- m_128apsk[98].imag() = (r6 * sin(1717 * M_PI / 1680.0));
+- m_128apsk[99].real() = (r6 * cos(179 * M_PI / 168.0));
+- m_128apsk[99].imag() = (r6 * sin(179 * M_PI / 168.0));
+- m_128apsk[100].real() = (r2 * cos(2641 * M_PI / 2520.0));
+- m_128apsk[100].imag() = (r2 * sin(2641 * M_PI / 2520.0));
+- m_128apsk[101].real() = (r3 * cos(303 * M_PI / 280.0));
+- m_128apsk[101].imag() = (r3 * sin(303 * M_PI / 280.0));
+- m_128apsk[102].real() = (r5 * cos(739 * M_PI / 720.0));
+- m_128apsk[102].imag() = (r5 * sin(739 * M_PI / 720.0));
+- m_128apsk[103].real() = (r4 * cos(781 * M_PI / 720.0));
+- m_128apsk[103].imag() = (r4 * sin(781 * M_PI / 720.0));
+- m_128apsk[104].real() = (r1 * cos(663 * M_PI / 560.0));
+- m_128apsk[104].imag() = (r1 * sin(663 * M_PI / 560.0));
+- m_128apsk[105].real() = (r6 * cos(481 * M_PI / 420.0));
+- m_128apsk[105].imag() = (r6 * sin(481 * M_PI / 420.0));
+- m_128apsk[106].real() = (r6 * cos(2063 * M_PI / 1680.0));
+- m_128apsk[106].imag() = (r6 * sin(2063 * M_PI / 1680.0));
+- m_128apsk[107].real() = (r6 * cos(5969 * M_PI / 5040.0));
+- m_128apsk[107].imag() = (r6 * sin(5969 * M_PI / 5040.0));
+- m_128apsk[108].real() = (r2 * cos(673 * M_PI / 560.0));
+- m_128apsk[108].imag() = (r2 * sin(673 * M_PI / 560.0));
+- m_128apsk[109].real() = (r3 * cos(1177 * M_PI / 1008.0));
+- m_128apsk[109].imag() = (r3 * sin(1177 * M_PI / 1008.0));
+- m_128apsk[110].real() = (r5 * cos(3083 * M_PI / 2520.0));
+- m_128apsk[110].imag() = (r5 * sin(3083 * M_PI / 2520.0));
+- m_128apsk[111].real() = (r4 * cos(979 * M_PI / 840.0));
+- m_128apsk[111].imag() = (r4 * sin(979 * M_PI / 840.0));
+- m_128apsk[112].real() = (r1 * cos(803 * M_PI / 560.0));
+- m_128apsk[112].imag() = (r1 * sin(803 * M_PI / 560.0));
+- m_128apsk[113].real() = (r6 * cos(7033 * M_PI / 5040.0));
+- m_128apsk[113].imag() = (r6 * sin(7033 * M_PI / 5040.0));
+- m_128apsk[114].real() = (r6 * cos(133 * M_PI / 90.0));
+- m_128apsk[114].imag() = (r6 * sin(133 * M_PI / 90.0));
+- m_128apsk[115].real() = (r6 * cos(241 * M_PI / 168.0));
+- m_128apsk[115].imag() = (r6 * sin(241 * M_PI / 168.0));
+- m_128apsk[116].real() = (r2 * cos(3659 * M_PI / 2520.0));
+- m_128apsk[116].imag() = (r2 * sin(3659 * M_PI / 2520.0));
+- m_128apsk[117].real() = (r3 * cos(397 * M_PI / 280.0));
+- m_128apsk[117].imag() = (r3 * sin(397 * M_PI / 280.0));
+- m_128apsk[118].real() = (r5 * cos(1061 * M_PI / 720.0));
+- m_128apsk[118].imag() = (r5 * sin(1061 * M_PI / 720.0));
+- m_128apsk[119].real() = (r4 * cos(1189 * M_PI / 840.0));
+- m_128apsk[119].imag() = (r4 * sin(1189 * M_PI / 840.0));
+- m_128apsk[120].real() = (r1 * cos(737 * M_PI / 560.0));
+- m_128apsk[120].imag() = (r1 * sin(737 * M_PI / 560.0));
+- m_128apsk[121].real() = (r6 * cos(6829 * M_PI / 5040.0));
+- m_128apsk[121].imag() = (r6 * sin(6829 * M_PI / 5040.0));
+- m_128apsk[122].real() = (r6 * cos(229 * M_PI / 180.0));
+- m_128apsk[122].imag() = (r6 * sin(229 * M_PI / 180.0));
+- m_128apsk[123].real() = (r6 * cos(221 * M_PI / 168.0));
+- m_128apsk[123].imag() = (r6 * sin(221 * M_PI / 168.0));
+- m_128apsk[124].real() = (r2 * cos(727 * M_PI / 560.0));
+- m_128apsk[124].imag() = (r2 * sin(727 * M_PI / 560.0));
+- m_128apsk[125].real() = (r3 * cos(959 * M_PI / 720.0));
+- m_128apsk[125].imag() = (r3 * sin(959 * M_PI / 720.0));
+- m_128apsk[126].real() = (r5 * cos(919 * M_PI / 720.0));
+- m_128apsk[126].imag() = (r5 * sin(919 * M_PI / 720.0));
+- m_128apsk[127].real() = (r4 * cos(1121 * M_PI / 840.0));
+- m_128apsk[127].imag() = (r4 * sin(1121 * M_PI / 840.0));
+- break;
+- case gr::dvbs2::MOD_256APSK:
+- if (rate == gr::dvbs2::C20_30)
+- {
+- m_256apsk[0].real() = 1.6350;
+- m_256apsk[0].imag() = 0.1593;
+- m_256apsk[1].real() = 1.5776;
+- m_256apsk[1].imag() = 0.4735;
+- m_256apsk[2].real() = 0.9430;
+- m_256apsk[2].imag() = 0.1100;
+- m_256apsk[3].real() = 0.9069;
+- m_256apsk[3].imag() = 0.2829;
+- m_256apsk[4].real() = 0.3237;
+- m_256apsk[4].imag() = 0.0849;
+- m_256apsk[5].real() = 0.3228;
+- m_256apsk[5].imag() = 0.0867;
+- m_256apsk[6].real() = 0.7502;
+- m_256apsk[6].imag() = 0.1138;
+- m_256apsk[7].real() = 0.7325;
+- m_256apsk[7].imag() = 0.2088;
+- m_256apsk[8].real() = 0.1658;
+- m_256apsk[8].imag() = 1.6747;
+- m_256apsk[9].real() = 0.4907;
+- m_256apsk[9].imag() = 1.6084;
+- m_256apsk[10].real() = 0.1088;
+- m_256apsk[10].imag() = 0.9530;
+- m_256apsk[11].real() = 0.2464;
+- m_256apsk[11].imag() = 0.9270;
+- m_256apsk[12].real() = 0.0872;
+- m_256apsk[12].imag() = 0.1390;
+- m_256apsk[13].real() = 0.0871;
+- m_256apsk[13].imag() = 0.1392;
+- m_256apsk[14].real() = 0.1091;
+- m_256apsk[14].imag() = 0.7656;
+- m_256apsk[15].real() = 0.1699;
+- m_256apsk[15].imag() = 0.7537;
+- m_256apsk[16].real() = -1.6350;
+- m_256apsk[16].imag() = 0.1593;
+- m_256apsk[17].real() = -1.5776;
+- m_256apsk[17].imag() = 0.4735;
+- m_256apsk[18].real() = -0.9430;
+- m_256apsk[18].imag() = 0.1100;
+- m_256apsk[19].real() = -0.9069;
+- m_256apsk[19].imag() = 0.2829;
+- m_256apsk[20].real() = -0.3237;
+- m_256apsk[20].imag() = 0.0849;
+- m_256apsk[21].real() = -0.3228;
+- m_256apsk[21].imag() = 0.0867;
+- m_256apsk[22].real() = -0.7502;
+- m_256apsk[22].imag() = 0.1138;
+- m_256apsk[23].real() = -0.7325;
+- m_256apsk[23].imag() = 0.2088;
+- m_256apsk[24].real() = -0.1658;
+- m_256apsk[24].imag() = 1.6747;
+- m_256apsk[25].real() = -0.4907;
+- m_256apsk[25].imag() = 1.6084;
+- m_256apsk[26].real() = -0.1088;
+- m_256apsk[26].imag() = 0.9530;
+- m_256apsk[27].real() = -0.2464;
+- m_256apsk[27].imag() = 0.9270;
+- m_256apsk[28].real() = -0.0872;
+- m_256apsk[28].imag() = 0.1390;
+- m_256apsk[29].real() = -0.0871;
+- m_256apsk[29].imag() = 0.1392;
+- m_256apsk[30].real() = -0.1091;
+- m_256apsk[30].imag() = 0.7656;
+- m_256apsk[31].real() = -0.1699;
+- m_256apsk[31].imag() = 0.7537;
+- m_256apsk[32].real() = 1.3225;
+- m_256apsk[32].imag() = 0.1320;
+- m_256apsk[33].real() = 1.2742;
+- m_256apsk[33].imag() = 0.3922;
+- m_256apsk[34].real() = 1.0854;
+- m_256apsk[34].imag() = 0.1139;
+- m_256apsk[35].real() = 1.0441;
+- m_256apsk[35].imag() = 0.3296;
+- m_256apsk[36].real() = 0.4582;
+- m_256apsk[36].imag() = 0.1123;
+- m_256apsk[37].real() = 0.4545;
+- m_256apsk[37].imag() = 0.1251;
+- m_256apsk[38].real() = 0.6473;
+- m_256apsk[38].imag() = 0.1138;
+- m_256apsk[39].real() = 0.6339;
+- m_256apsk[39].imag() = 0.1702;
+- m_256apsk[40].real() = 0.1322;
+- m_256apsk[40].imag() = 1.3631;
+- m_256apsk[41].real() = 0.3929;
+- m_256apsk[41].imag() = 1.3102;
+- m_256apsk[42].real() = 0.1124;
+- m_256apsk[42].imag() = 1.1327;
+- m_256apsk[43].real() = 0.3160;
+- m_256apsk[43].imag() = 1.0913;
+- m_256apsk[44].real() = 0.0928;
+- m_256apsk[44].imag() = 0.3970;
+- m_256apsk[45].real() = 0.0937;
+- m_256apsk[45].imag() = 0.3973;
+- m_256apsk[46].real() = 0.1054;
+- m_256apsk[46].imag() = 0.5979;
+- m_256apsk[47].real() = 0.1230;
+- m_256apsk[47].imag() = 0.5949;
+- m_256apsk[48].real() = -1.3225;
+- m_256apsk[48].imag() = 0.1320;
+- m_256apsk[49].real() = -1.2742;
+- m_256apsk[49].imag() = 0.3922;
+- m_256apsk[50].real() = -1.0854;
+- m_256apsk[50].imag() = 0.1139;
+- m_256apsk[51].real() = -1.0441;
+- m_256apsk[51].imag() = 0.3296;
+- m_256apsk[52].real() = -0.4582;
+- m_256apsk[52].imag() = 0.1123;
+- m_256apsk[53].real() = -0.4545;
+- m_256apsk[53].imag() = 0.1251;
+- m_256apsk[54].real() = -0.6473;
+- m_256apsk[54].imag() = 0.1138;
+- m_256apsk[55].real() = -0.6339;
+- m_256apsk[55].imag() = 0.1702;
+- m_256apsk[56].real() = -0.1322;
+- m_256apsk[56].imag() = 1.3631;
+- m_256apsk[57].real() = -0.3929;
+- m_256apsk[57].imag() = 1.3102;
+- m_256apsk[58].real() = -0.1124;
+- m_256apsk[58].imag() = 1.1327;
+- m_256apsk[59].real() = -0.3160;
+- m_256apsk[59].imag() = 1.0913;
+- m_256apsk[60].real() = -0.0928;
+- m_256apsk[60].imag() = 0.3970;
+- m_256apsk[61].real() = -0.0937;
+- m_256apsk[61].imag() = 0.3973;
+- m_256apsk[62].real() = -0.1054;
+- m_256apsk[62].imag() = 0.5979;
+- m_256apsk[63].real() = -0.1230;
+- m_256apsk[63].imag() = 0.5949;
+- m_256apsk[64].real() = 1.6350;
+- m_256apsk[64].imag() = -0.1593;
+- m_256apsk[65].real() = 1.5776;
+- m_256apsk[65].imag() = -0.4735;
+- m_256apsk[66].real() = 0.9430;
+- m_256apsk[66].imag() = -0.1100;
+- m_256apsk[67].real() = 0.9069;
+- m_256apsk[67].imag() = -0.2829;
+- m_256apsk[68].real() = 0.3237;
+- m_256apsk[68].imag() = -0.0849;
+- m_256apsk[69].real() = 0.3228;
+- m_256apsk[69].imag() = -0.0867;
+- m_256apsk[70].real() = 0.7502;
+- m_256apsk[70].imag() = -0.1138;
+- m_256apsk[71].real() = 0.7325;
+- m_256apsk[71].imag() = -0.2088;
+- m_256apsk[72].real() = 0.1658;
+- m_256apsk[72].imag() = -1.6747;
+- m_256apsk[73].real() = 0.4907;
+- m_256apsk[73].imag() = -1.6084;
+- m_256apsk[74].real() = 0.1088;
+- m_256apsk[74].imag() = -0.9530;
+- m_256apsk[75].real() = 0.2464;
+- m_256apsk[75].imag() = -0.9270;
+- m_256apsk[76].real() = 0.0872;
+- m_256apsk[76].imag() = -0.1390;
+- m_256apsk[77].real() = 0.0871;
+- m_256apsk[77].imag() = -0.1392;
+- m_256apsk[78].real() = 0.1091;
+- m_256apsk[78].imag() = -0.7656;
+- m_256apsk[79].real() = 0.1699;
+- m_256apsk[79].imag() = -0.7537;
+- m_256apsk[80].real() = -1.6350;
+- m_256apsk[80].imag() = -0.1593;
+- m_256apsk[81].real() = -1.5776;
+- m_256apsk[81].imag() = -0.4735;
+- m_256apsk[82].real() = -0.9430;
+- m_256apsk[82].imag() = -0.1100;
+- m_256apsk[83].real() = -0.9069;
+- m_256apsk[83].imag() = -0.2829;
+- m_256apsk[84].real() = -0.3237;
+- m_256apsk[84].imag() = -0.0849;
+- m_256apsk[85].real() = -0.3228;
+- m_256apsk[85].imag() = -0.0867;
+- m_256apsk[86].real() = -0.7502;
+- m_256apsk[86].imag() = -0.1138;
+- m_256apsk[87].real() = -0.7325;
+- m_256apsk[87].imag() = -0.2088;
+- m_256apsk[88].real() = -0.1658;
+- m_256apsk[88].imag() = -1.6747;
+- m_256apsk[89].real() = -0.4907;
+- m_256apsk[89].imag() = -1.6084;
+- m_256apsk[90].real() = -0.1088;
+- m_256apsk[90].imag() = -0.9530;
+- m_256apsk[91].real() = -0.2464;
+- m_256apsk[91].imag() = -0.9270;
+- m_256apsk[92].real() = -0.0872;
+- m_256apsk[92].imag() = -0.1390;
+- m_256apsk[93].real() = -0.0871;
+- m_256apsk[93].imag() = -0.1392;
+- m_256apsk[94].real() = -0.1091;
+- m_256apsk[94].imag() = -0.7656;
+- m_256apsk[95].real() = -0.1699;
+- m_256apsk[95].imag() = -0.7537;
+- m_256apsk[96].real() = 1.3225;
+- m_256apsk[96].imag() = -0.1320;
+- m_256apsk[97].real() = 1.2742;
+- m_256apsk[97].imag() = -0.3922;
+- m_256apsk[98].real() = 1.0854;
+- m_256apsk[98].imag() = -0.1139;
+- m_256apsk[99].real() = 1.0441;
+- m_256apsk[99].imag() = -0.3296;
+- m_256apsk[100].real() = 0.4582;
+- m_256apsk[100].imag() = -0.1123;
+- m_256apsk[101].real() = 0.4545;
+- m_256apsk[101].imag() = -0.1251;
+- m_256apsk[102].real() = 0.6473;
+- m_256apsk[102].imag() = -0.1138;
+- m_256apsk[103].real() = 0.6339;
+- m_256apsk[103].imag() = -0.1702;
+- m_256apsk[104].real() = 0.1322;
+- m_256apsk[104].imag() = -1.3631;
+- m_256apsk[105].real() = 0.3929;
+- m_256apsk[105].imag() = -1.3102;
+- m_256apsk[106].real() = 0.1124;
+- m_256apsk[106].imag() = -1.1327;
+- m_256apsk[107].real() = 0.3160;
+- m_256apsk[107].imag() = -1.0913;
+- m_256apsk[108].real() = 0.0928;
+- m_256apsk[108].imag() = -0.3970;
+- m_256apsk[109].real() = 0.0937;
+- m_256apsk[109].imag() = -0.3973;
+- m_256apsk[110].real() = 0.1054;
+- m_256apsk[110].imag() = -0.5979;
+- m_256apsk[111].real() = 0.1230;
+- m_256apsk[111].imag() = -0.5949;
+- m_256apsk[112].real() = -1.3225;
+- m_256apsk[112].imag() = -0.1320;
+- m_256apsk[113].real() = -1.2742;
+- m_256apsk[113].imag() = -0.3922;
+- m_256apsk[114].real() = -1.0854;
+- m_256apsk[114].imag() = -0.1139;
+- m_256apsk[115].real() = -1.0441;
+- m_256apsk[115].imag() = -0.3296;
+- m_256apsk[116].real() = -0.4582;
+- m_256apsk[116].imag() = -0.1123;
+- m_256apsk[117].real() = -0.4545;
+- m_256apsk[117].imag() = -0.1251;
+- m_256apsk[118].real() = -0.6473;
+- m_256apsk[118].imag() = -0.1138;
+- m_256apsk[119].real() = -0.6339;
+- m_256apsk[119].imag() = -0.1702;
+- m_256apsk[120].real() = -0.1322;
+- m_256apsk[120].imag() = -1.3631;
+- m_256apsk[121].real() = -0.3929;
+- m_256apsk[121].imag() = -1.3102;
+- m_256apsk[122].real() = -0.1124;
+- m_256apsk[122].imag() = -1.1327;
+- m_256apsk[123].real() = -0.3160;
+- m_256apsk[123].imag() = -1.0913;
+- m_256apsk[124].real() = -0.0928;
+- m_256apsk[124].imag() = -0.3970;
+- m_256apsk[125].real() = -0.0937;
+- m_256apsk[125].imag() = -0.3973;
+- m_256apsk[126].real() = -0.1054;
+- m_256apsk[126].imag() = -0.5979;
+- m_256apsk[127].real() = -0.1230;
+- m_256apsk[127].imag() = -0.5949;
+- m_256apsk[128].real() = 1.2901;
+- m_256apsk[128].imag() = 1.0495;
+- m_256apsk[129].real() = 1.4625;
+- m_256apsk[129].imag() = 0.7740;
+- m_256apsk[130].real() = 0.7273;
+- m_256apsk[130].imag() = 0.6160;
+- m_256apsk[131].real() = 0.8177;
+- m_256apsk[131].imag() = 0.4841;
+- m_256apsk[132].real() = 0.2844;
+- m_256apsk[132].imag() = 0.1296;
+- m_256apsk[133].real() = 0.2853;
+- m_256apsk[133].imag() = 0.1309;
+- m_256apsk[134].real() = 0.5902;
+- m_256apsk[134].imag() = 0.4857;
+- m_256apsk[135].real() = 0.6355;
+- m_256apsk[135].imag() = 0.4185;
+- m_256apsk[136].real() = 1.0646;
+- m_256apsk[136].imag() = 1.2876;
+- m_256apsk[137].real() = 0.7949;
+- m_256apsk[137].imag() = 1.4772;
+- m_256apsk[138].real() = 0.5707;
+- m_256apsk[138].imag() = 0.7662;
+- m_256apsk[139].real() = 0.4490;
+- m_256apsk[139].imag() = 0.8461;
+- m_256apsk[140].real() = 0.1053;
+- m_256apsk[140].imag() = 0.1494;
+- m_256apsk[141].real() = 0.1052;
+- m_256apsk[141].imag() = 0.1495;
+- m_256apsk[142].real() = 0.4294;
+- m_256apsk[142].imag() = 0.6363;
+- m_256apsk[143].real() = 0.3744;
+- m_256apsk[143].imag() = 0.6744;
+- m_256apsk[144].real() = -1.2901;
+- m_256apsk[144].imag() = 1.0495;
+- m_256apsk[145].real() = -1.4625;
+- m_256apsk[145].imag() = 0.7740;
+- m_256apsk[146].real() = -0.7273;
+- m_256apsk[146].imag() = 0.6160;
+- m_256apsk[147].real() = -0.8177;
+- m_256apsk[147].imag() = 0.4841;
+- m_256apsk[148].real() = -0.2844;
+- m_256apsk[148].imag() = 0.1296;
+- m_256apsk[149].real() = -0.2853;
+- m_256apsk[149].imag() = 0.1309;
+- m_256apsk[150].real() = -0.5902;
+- m_256apsk[150].imag() = 0.4857;
+- m_256apsk[151].real() = -0.6355;
+- m_256apsk[151].imag() = 0.4185;
+- m_256apsk[152].real() = -1.0646;
+- m_256apsk[152].imag() = 1.2876;
+- m_256apsk[153].real() = -0.7949;
+- m_256apsk[153].imag() = 1.4772;
+- m_256apsk[154].real() = -0.5707;
+- m_256apsk[154].imag() = 0.7662;
+- m_256apsk[155].real() = -0.4490;
+- m_256apsk[155].imag() = 0.8461;
+- m_256apsk[156].real() = -0.1053;
+- m_256apsk[156].imag() = 0.1494;
+- m_256apsk[157].real() = -0.1052;
+- m_256apsk[157].imag() = 0.1495;
+- m_256apsk[158].real() = -0.4294;
+- m_256apsk[158].imag() = 0.6363;
+- m_256apsk[159].real() = -0.3744;
+- m_256apsk[159].imag() = 0.6744;
+- m_256apsk[160].real() = 1.0382;
+- m_256apsk[160].imag() = 0.8623;
+- m_256apsk[161].real() = 1.1794;
+- m_256apsk[161].imag() = 0.6376;
+- m_256apsk[162].real() = 0.8504;
+- m_256apsk[162].imag() = 0.7217;
+- m_256apsk[163].real() = 0.9638;
+- m_256apsk[163].imag() = 0.5407;
+- m_256apsk[164].real() = 0.3734;
+- m_256apsk[164].imag() = 0.2560;
+- m_256apsk[165].real() = 0.3799;
+- m_256apsk[165].imag() = 0.2517;
+- m_256apsk[166].real() = 0.4968;
+- m_256apsk[166].imag() = 0.3947;
+- m_256apsk[167].real() = 0.5231;
+- m_256apsk[167].imag() = 0.3644;
+- m_256apsk[168].real() = 0.8555;
+- m_256apsk[168].imag() = 1.0542;
+- m_256apsk[169].real() = 0.6363;
+- m_256apsk[169].imag() = 1.2064;
+- m_256apsk[170].real() = 0.6961;
+- m_256apsk[170].imag() = 0.8850;
+- m_256apsk[171].real() = 0.5229;
+- m_256apsk[171].imag() = 1.0037;
+- m_256apsk[172].real() = 0.1938;
+- m_256apsk[172].imag() = 0.3621;
+- m_256apsk[173].real() = 0.1909;
+- m_256apsk[173].imag() = 0.3627;
+- m_256apsk[174].real() = 0.3224;
+- m_256apsk[174].imag() = 0.5236;
+- m_256apsk[175].real() = 0.3016;
+- m_256apsk[175].imag() = 0.5347;
+- m_256apsk[176].real() = -1.0382;
+- m_256apsk[176].imag() = 0.8623;
+- m_256apsk[177].real() = -1.1794;
+- m_256apsk[177].imag() = 0.6376;
+- m_256apsk[178].real() = -0.8504;
+- m_256apsk[178].imag() = 0.7217;
+- m_256apsk[179].real() = -0.9638;
+- m_256apsk[179].imag() = 0.5407;
+- m_256apsk[180].real() = -0.3734;
+- m_256apsk[180].imag() = 0.2560;
+- m_256apsk[181].real() = -0.3799;
+- m_256apsk[181].imag() = 0.2517;
+- m_256apsk[182].real() = -0.4968;
+- m_256apsk[182].imag() = 0.3947;
+- m_256apsk[183].real() = -0.5231;
+- m_256apsk[183].imag() = 0.3644;
+- m_256apsk[184].real() = -0.8555;
+- m_256apsk[184].imag() = 1.0542;
+- m_256apsk[185].real() = -0.6363;
+- m_256apsk[185].imag() = 1.2064;
+- m_256apsk[186].real() = -0.6961;
+- m_256apsk[186].imag() = 0.8850;
+- m_256apsk[187].real() = -0.5229;
+- m_256apsk[187].imag() = 1.0037;
+- m_256apsk[188].real() = -0.1938;
+- m_256apsk[188].imag() = 0.3621;
+- m_256apsk[189].real() = -0.1909;
+- m_256apsk[189].imag() = 0.3627;
+- m_256apsk[190].real() = -0.3224;
+- m_256apsk[190].imag() = 0.5236;
+- m_256apsk[191].real() = -0.3016;
+- m_256apsk[191].imag() = 0.5347;
+- m_256apsk[192].real() = 1.2901;
+- m_256apsk[192].imag() = -1.0495;
+- m_256apsk[193].real() = 1.4625;
+- m_256apsk[193].imag() = -0.7740;
+- m_256apsk[194].real() = 0.7273;
+- m_256apsk[194].imag() = -0.6160;
+- m_256apsk[195].real() = 0.8177;
+- m_256apsk[195].imag() = -0.4841;
+- m_256apsk[196].real() = 0.2844;
+- m_256apsk[196].imag() = -0.1296;
+- m_256apsk[197].real() = 0.2853;
+- m_256apsk[197].imag() = -0.1309;
+- m_256apsk[198].real() = 0.5902;
+- m_256apsk[198].imag() = -0.4857;
+- m_256apsk[199].real() = 0.6355;
+- m_256apsk[199].imag() = -0.4185;
+- m_256apsk[200].real() = 1.0646;
+- m_256apsk[200].imag() = -1.2876;
+- m_256apsk[201].real() = 0.7949;
+- m_256apsk[201].imag() = -1.4772;
+- m_256apsk[202].real() = 0.5707;
+- m_256apsk[202].imag() = -0.7662;
+- m_256apsk[203].real() = 0.4490;
+- m_256apsk[203].imag() = -0.8461;
+- m_256apsk[204].real() = 0.1053;
+- m_256apsk[204].imag() = -0.1494;
+- m_256apsk[205].real() = 0.1052;
+- m_256apsk[205].imag() = -0.1495;
+- m_256apsk[206].real() = 0.4294;
+- m_256apsk[206].imag() = -0.6363;
+- m_256apsk[207].real() = 0.3744;
+- m_256apsk[207].imag() = -0.6744;
+- m_256apsk[208].real() = -1.2901;
+- m_256apsk[208].imag() = -1.0495;
+- m_256apsk[209].real() = -1.4625;
+- m_256apsk[209].imag() = -0.7740;
+- m_256apsk[210].real() = -0.7273;
+- m_256apsk[210].imag() = -0.6160;
+- m_256apsk[211].real() = -0.8177;
+- m_256apsk[211].imag() = -0.4841;
+- m_256apsk[212].real() = -0.2844;
+- m_256apsk[212].imag() = -0.1296;
+- m_256apsk[213].real() = -0.2853;
+- m_256apsk[213].imag() = -0.1309;
+- m_256apsk[214].real() = -0.5902;
+- m_256apsk[214].imag() = -0.4857;
+- m_256apsk[215].real() = -0.6355;
+- m_256apsk[215].imag() = -0.4185;
+- m_256apsk[216].real() = -1.0646;
+- m_256apsk[216].imag() = -1.2876;
+- m_256apsk[217].real() = -0.7949;
+- m_256apsk[217].imag() = -1.4772;
+- m_256apsk[218].real() = -0.5707;
+- m_256apsk[218].imag() = -0.7662;
+- m_256apsk[219].real() = -0.4490;
+- m_256apsk[219].imag() = -0.8461;
+- m_256apsk[220].real() = -0.1053;
+- m_256apsk[220].imag() = -0.1494;
+- m_256apsk[221].real() = -0.1052;
+- m_256apsk[221].imag() = -0.1495;
+- m_256apsk[222].real() = -0.4294;
+- m_256apsk[222].imag() = -0.6363;
+- m_256apsk[223].real() = -0.3744;
+- m_256apsk[223].imag() = -0.6744;
+- m_256apsk[224].real() = 1.0382;
+- m_256apsk[224].imag() = -0.8623;
+- m_256apsk[225].real() = 1.1794;
+- m_256apsk[225].imag() = -0.6376;
+- m_256apsk[226].real() = 0.8504;
+- m_256apsk[226].imag() = -0.7217;
+- m_256apsk[227].real() = 0.9638;
+- m_256apsk[227].imag() = -0.5407;
+- m_256apsk[228].real() = 0.3734;
+- m_256apsk[228].imag() = -0.2560;
+- m_256apsk[229].real() = 0.3799;
+- m_256apsk[229].imag() = -0.2517;
+- m_256apsk[230].real() = 0.4968;
+- m_256apsk[230].imag() = -0.3947;
+- m_256apsk[231].real() = 0.5231;
+- m_256apsk[231].imag() = -0.3644;
+- m_256apsk[232].real() = 0.8555;
+- m_256apsk[232].imag() = -1.0542;
+- m_256apsk[233].real() = 0.6363;
+- m_256apsk[233].imag() = -1.2064;
+- m_256apsk[234].real() = 0.6961;
+- m_256apsk[234].imag() = -0.8850;
+- m_256apsk[235].real() = 0.5229;
+- m_256apsk[235].imag() = -1.0037;
+- m_256apsk[236].real() = 0.1938;
+- m_256apsk[236].imag() = -0.3621;
+- m_256apsk[237].real() = 0.1909;
+- m_256apsk[237].imag() = -0.3627;
+- m_256apsk[238].real() = 0.3224;
+- m_256apsk[238].imag() = -0.5236;
+- m_256apsk[239].real() = 0.3016;
+- m_256apsk[239].imag() = -0.5347;
+- m_256apsk[240].real() = -1.0382;
+- m_256apsk[240].imag() = -0.8623;
+- m_256apsk[241].real() = -1.1794;
+- m_256apsk[241].imag() = -0.6376;
+- m_256apsk[242].real() = -0.8504;
+- m_256apsk[242].imag() = -0.7217;
+- m_256apsk[243].real() = -0.9638;
+- m_256apsk[243].imag() = -0.5407;
+- m_256apsk[244].real() = -0.3734;
+- m_256apsk[244].imag() = -0.2560;
+- m_256apsk[245].real() = -0.3799;
+- m_256apsk[245].imag() = -0.2517;
+- m_256apsk[246].real() = -0.4968;
+- m_256apsk[246].imag() = -0.3947;
+- m_256apsk[247].real() = -0.5231;
+- m_256apsk[247].imag() = -0.3644;
+- m_256apsk[248].real() = -0.8555;
+- m_256apsk[248].imag() = -1.0542;
+- m_256apsk[249].real() = -0.6363;
+- m_256apsk[249].imag() = -1.2064;
+- m_256apsk[250].real() = -0.6961;
+- m_256apsk[250].imag() = -0.8850;
+- m_256apsk[251].real() = -0.5229;
+- m_256apsk[251].imag() = -1.0037;
+- m_256apsk[252].real() = -0.1938;
+- m_256apsk[252].imag() = -0.3621;
+- m_256apsk[253].real() = -0.1909;
+- m_256apsk[253].imag() = -0.3627;
+- m_256apsk[254].real() = -0.3224;
+- m_256apsk[254].imag() = -0.5236;
+- m_256apsk[255].real() = -0.3016;
+- m_256apsk[255].imag() = -0.5347;
+- for (int i = 0; i < 256; i++)
+- {
+- m_256apsk[i].real() /= 1.6747;
+- m_256apsk[i].imag() /= 1.6747;
+- }
+- }
+- else if (rate == gr::dvbs2::C22_30)
+- {
+- m_256apsk[0].real() = 1.5977;
+- m_256apsk[0].imag() = 0.1526;
+- m_256apsk[1].real() = 1.3187;
+- m_256apsk[1].imag() = 0.1269;
+- m_256apsk[2].real() = -1.5977;
+- m_256apsk[2].imag() = 0.1526;
+- m_256apsk[3].real() = -1.3187;
+- m_256apsk[3].imag() = 0.1269;
+- m_256apsk[4].real() = 0.2574;
+- m_256apsk[4].imag() = 0.0733;
+- m_256apsk[5].real() = 0.4496;
+- m_256apsk[5].imag() = 0.0807;
+- m_256apsk[6].real() = -0.2574;
+- m_256apsk[6].imag() = 0.0733;
+- m_256apsk[7].real() = -0.4496;
+- m_256apsk[7].imag() = 0.0807;
+- m_256apsk[8].real() = 1.5977;
+- m_256apsk[8].imag() = -0.1526;
+- m_256apsk[9].real() = 1.3187;
+- m_256apsk[9].imag() = -0.1269;
+- m_256apsk[10].real() = -1.5977;
+- m_256apsk[10].imag() = -0.1526;
+- m_256apsk[11].real() = -1.3187;
+- m_256apsk[11].imag() = -0.1269;
+- m_256apsk[12].real() = 0.2574;
+- m_256apsk[12].imag() = -0.0733;
+- m_256apsk[13].real() = 0.4496;
+- m_256apsk[13].imag() = -0.0807;
+- m_256apsk[14].real() = -0.2574;
+- m_256apsk[14].imag() = -0.0733;
+- m_256apsk[15].real() = -0.4496;
+- m_256apsk[15].imag() = -0.0807;
+- m_256apsk[16].real() = 0.9269;
+- m_256apsk[16].imag() = 0.0943;
+- m_256apsk[17].real() = 1.1024;
+- m_256apsk[17].imag() = 0.1086;
+- m_256apsk[18].real() = -0.9269;
+- m_256apsk[18].imag() = 0.0943;
+- m_256apsk[19].real() = -1.1024;
+- m_256apsk[19].imag() = 0.1086;
+- m_256apsk[20].real() = 0.7663;
+- m_256apsk[20].imag() = 0.0867;
+- m_256apsk[21].real() = 0.6115;
+- m_256apsk[21].imag() = 0.0871;
+- m_256apsk[22].real() = -0.7663;
+- m_256apsk[22].imag() = 0.0867;
+- m_256apsk[23].real() = -0.6115;
+- m_256apsk[23].imag() = 0.0871;
+- m_256apsk[24].real() = 0.9269;
+- m_256apsk[24].imag() = -0.0943;
+- m_256apsk[25].real() = 1.1024;
+- m_256apsk[25].imag() = -0.1086;
+- m_256apsk[26].real() = -0.9269;
+- m_256apsk[26].imag() = -0.0943;
+- m_256apsk[27].real() = -1.1024;
+- m_256apsk[27].imag() = -0.1086;
+- m_256apsk[28].real() = 0.7663;
+- m_256apsk[28].imag() = -0.0867;
+- m_256apsk[29].real() = 0.6115;
+- m_256apsk[29].imag() = -0.0871;
+- m_256apsk[30].real() = -0.7663;
+- m_256apsk[30].imag() = -0.0867;
+- m_256apsk[31].real() = -0.6115;
+- m_256apsk[31].imag() = -0.0871;
+- m_256apsk[32].real() = 1.2701;
+- m_256apsk[32].imag() = 1.0139;
+- m_256apsk[33].real() = 1.0525;
+- m_256apsk[33].imag() = 0.8406;
+- m_256apsk[34].real() = -1.2701;
+- m_256apsk[34].imag() = 1.0139;
+- m_256apsk[35].real() = -1.0525;
+- m_256apsk[35].imag() = 0.8406;
+- m_256apsk[36].real() = 0.2487;
+- m_256apsk[36].imag() = 0.1978;
+- m_256apsk[37].real() = 0.3523;
+- m_256apsk[37].imag() = 0.2915;
+- m_256apsk[38].real() = -0.2487;
+- m_256apsk[38].imag() = 0.1978;
+- m_256apsk[39].real() = -0.3523;
+- m_256apsk[39].imag() = 0.2915;
+- m_256apsk[40].real() = 1.2701;
+- m_256apsk[40].imag() = -1.0139;
+- m_256apsk[41].real() = 1.0525;
+- m_256apsk[41].imag() = -0.8406;
+- m_256apsk[42].real() = -1.2701;
+- m_256apsk[42].imag() = -1.0139;
+- m_256apsk[43].real() = -1.0525;
+- m_256apsk[43].imag() = -0.8406;
+- m_256apsk[44].real() = 0.2487;
+- m_256apsk[44].imag() = -0.1978;
+- m_256apsk[45].real() = 0.3523;
+- m_256apsk[45].imag() = -0.2915;
+- m_256apsk[46].real() = -0.2487;
+- m_256apsk[46].imag() = -0.1978;
+- m_256apsk[47].real() = -0.3523;
+- m_256apsk[47].imag() = -0.2915;
+- m_256apsk[48].real() = 0.7359;
+- m_256apsk[48].imag() = 0.6043;
+- m_256apsk[49].real() = 0.8807;
+- m_256apsk[49].imag() = 0.7105;
+- m_256apsk[50].real() = -0.7359;
+- m_256apsk[50].imag() = 0.6043;
+- m_256apsk[51].real() = -0.8807;
+- m_256apsk[51].imag() = 0.7105;
+- m_256apsk[52].real() = 0.6017;
+- m_256apsk[52].imag() = 0.5019;
+- m_256apsk[53].real() = 0.4747;
+- m_256apsk[53].imag() = 0.3996;
+- m_256apsk[54].real() = -0.6017;
+- m_256apsk[54].imag() = 0.5019;
+- m_256apsk[55].real() = -0.4747;
+- m_256apsk[55].imag() = 0.3996;
+- m_256apsk[56].real() = 0.7359;
+- m_256apsk[56].imag() = -0.6043;
+- m_256apsk[57].real() = 0.8807;
+- m_256apsk[57].imag() = -0.7105;
+- m_256apsk[58].real() = -0.7359;
+- m_256apsk[58].imag() = -0.6043;
+- m_256apsk[59].real() = -0.8807;
+- m_256apsk[59].imag() = -0.7105;
+- m_256apsk[60].real() = 0.6017;
+- m_256apsk[60].imag() = -0.5019;
+- m_256apsk[61].real() = 0.4747;
+- m_256apsk[61].imag() = -0.3996;
+- m_256apsk[62].real() = -0.6017;
+- m_256apsk[62].imag() = -0.5019;
+- m_256apsk[63].real() = -0.4747;
+- m_256apsk[63].imag() = -0.3996;
+- m_256apsk[64].real() = 1.5441;
+- m_256apsk[64].imag() = 0.4545;
+- m_256apsk[65].real() = 1.2750;
+- m_256apsk[65].imag() = 0.3775;
+- m_256apsk[66].real() = -1.5441;
+- m_256apsk[66].imag() = 0.4545;
+- m_256apsk[67].real() = -1.2750;
+- m_256apsk[67].imag() = 0.3775;
+- m_256apsk[68].real() = 0.2586;
+- m_256apsk[68].imag() = 0.0752;
+- m_256apsk[69].real() = 0.4435;
+- m_256apsk[69].imag() = 0.1065;
+- m_256apsk[70].real() = -0.2586;
+- m_256apsk[70].imag() = 0.0752;
+- m_256apsk[71].real() = -0.4435;
+- m_256apsk[71].imag() = 0.1065;
+- m_256apsk[72].real() = 1.5441;
+- m_256apsk[72].imag() = -0.4545;
+- m_256apsk[73].real() = 1.2750;
+- m_256apsk[73].imag() = -0.3775;
+- m_256apsk[74].real() = -1.5441;
+- m_256apsk[74].imag() = -0.4545;
+- m_256apsk[75].real() = -1.2750;
+- m_256apsk[75].imag() = -0.3775;
+- m_256apsk[76].real() = 0.2586;
+- m_256apsk[76].imag() = -0.0752;
+- m_256apsk[77].real() = 0.4435;
+- m_256apsk[77].imag() = -0.1065;
+- m_256apsk[78].real() = -0.2586;
+- m_256apsk[78].imag() = -0.0752;
+- m_256apsk[79].real() = -0.4435;
+- m_256apsk[79].imag() = -0.1065;
+- m_256apsk[80].real() = 0.8925;
+- m_256apsk[80].imag() = 0.2771;
+- m_256apsk[81].real() = 1.0649;
+- m_256apsk[81].imag() = 0.3219;
+- m_256apsk[82].real() = -0.8925;
+- m_256apsk[82].imag() = 0.2771;
+- m_256apsk[83].real() = -1.0649;
+- m_256apsk[83].imag() = 0.3219;
+- m_256apsk[84].real() = 0.7362;
+- m_256apsk[84].imag() = 0.2279;
+- m_256apsk[85].real() = 0.5936;
+- m_256apsk[85].imag() = 0.1699;
+- m_256apsk[86].real() = -0.7362;
+- m_256apsk[86].imag() = 0.2279;
+- m_256apsk[87].real() = -0.5936;
+- m_256apsk[87].imag() = 0.1699;
+- m_256apsk[88].real() = 0.8925;
+- m_256apsk[88].imag() = -0.2771;
+- m_256apsk[89].real() = 1.0649;
+- m_256apsk[89].imag() = -0.3219;
+- m_256apsk[90].real() = -0.8925;
+- m_256apsk[90].imag() = -0.2771;
+- m_256apsk[91].real() = -1.0649;
+- m_256apsk[91].imag() = -0.3219;
+- m_256apsk[92].real() = 0.7362;
+- m_256apsk[92].imag() = -0.2279;
+- m_256apsk[93].real() = 0.5936;
+- m_256apsk[93].imag() = -0.1699;
+- m_256apsk[94].real() = -0.7362;
+- m_256apsk[94].imag() = -0.2279;
+- m_256apsk[95].real() = -0.5936;
+- m_256apsk[95].imag() = -0.1699;
+- m_256apsk[96].real() = 1.4352;
+- m_256apsk[96].imag() = 0.7452;
+- m_256apsk[97].real() = 1.1866;
+- m_256apsk[97].imag() = 0.6182;
+- m_256apsk[98].real() = -1.4352;
+- m_256apsk[98].imag() = 0.7452;
+- m_256apsk[99].real() = -1.1866;
+- m_256apsk[99].imag() = 0.6182;
+- m_256apsk[100].real() = 0.2523;
+- m_256apsk[100].imag() = 0.1944;
+- m_256apsk[101].real() = 0.3695;
+- m_256apsk[101].imag() = 0.2695;
+- m_256apsk[102].real() = -0.2523;
+- m_256apsk[102].imag() = 0.1944;
+- m_256apsk[103].real() = -0.3695;
+- m_256apsk[103].imag() = 0.2695;
+- m_256apsk[104].real() = 1.4352;
+- m_256apsk[104].imag() = -0.7452;
+- m_256apsk[105].real() = 1.1866;
+- m_256apsk[105].imag() = -0.6182;
+- m_256apsk[106].real() = -1.4352;
+- m_256apsk[106].imag() = -0.7452;
+- m_256apsk[107].real() = -1.1866;
+- m_256apsk[107].imag() = -0.6182;
+- m_256apsk[108].real() = 0.2523;
+- m_256apsk[108].imag() = -0.1944;
+- m_256apsk[109].real() = 0.3695;
+- m_256apsk[109].imag() = -0.2695;
+- m_256apsk[110].real() = -0.2523;
+- m_256apsk[110].imag() = -0.1944;
+- m_256apsk[111].real() = -0.3695;
+- m_256apsk[111].imag() = -0.2695;
+- m_256apsk[112].real() = 0.8273;
+- m_256apsk[112].imag() = 0.4493;
+- m_256apsk[113].real() = 0.9911;
+- m_256apsk[113].imag() = 0.5243;
+- m_256apsk[114].real() = -0.8273;
+- m_256apsk[114].imag() = 0.4493;
+- m_256apsk[115].real() = -0.9911;
+- m_256apsk[115].imag() = 0.5243;
+- m_256apsk[116].real() = 0.6708;
+- m_256apsk[116].imag() = 0.3859;
+- m_256apsk[117].real() = 0.5197;
+- m_256apsk[117].imag() = 0.3331;
+- m_256apsk[118].real() = -0.6708;
+- m_256apsk[118].imag() = 0.3859;
+- m_256apsk[119].real() = -0.5197;
+- m_256apsk[119].imag() = 0.3331;
+- m_256apsk[120].real() = 0.8273;
+- m_256apsk[120].imag() = -0.4493;
+- m_256apsk[121].real() = 0.9911;
+- m_256apsk[121].imag() = -0.5243;
+- m_256apsk[122].real() = -0.8273;
+- m_256apsk[122].imag() = -0.4493;
+- m_256apsk[123].real() = -0.9911;
+- m_256apsk[123].imag() = -0.5243;
+- m_256apsk[124].real() = 0.6708;
+- m_256apsk[124].imag() = -0.3859;
+- m_256apsk[125].real() = 0.5197;
+- m_256apsk[125].imag() = -0.3331;
+- m_256apsk[126].real() = -0.6708;
+- m_256apsk[126].imag() = -0.3859;
+- m_256apsk[127].real() = -0.5197;
+- m_256apsk[127].imag() = -0.3331;
+- m_256apsk[128].real() = 0.1646;
+- m_256apsk[128].imag() = 1.6329;
+- m_256apsk[129].real() = 0.1379;
+- m_256apsk[129].imag() = 1.3595;
+- m_256apsk[130].real() = -0.1646;
+- m_256apsk[130].imag() = 1.6329;
+- m_256apsk[131].real() = -0.1379;
+- m_256apsk[131].imag() = 1.3595;
+- m_256apsk[132].real() = 0.0736;
+- m_256apsk[132].imag() = 0.0898;
+- m_256apsk[133].real() = 0.0742;
+- m_256apsk[133].imag() = 0.5054;
+- m_256apsk[134].real() = -0.0736;
+- m_256apsk[134].imag() = 0.0898;
+- m_256apsk[135].real() = -0.0742;
+- m_256apsk[135].imag() = 0.5054;
+- m_256apsk[136].real() = 0.1646;
+- m_256apsk[136].imag() = -1.6329;
+- m_256apsk[137].real() = 0.1379;
+- m_256apsk[137].imag() = -1.3595;
+- m_256apsk[138].real() = -0.1646;
+- m_256apsk[138].imag() = -1.6329;
+- m_256apsk[139].real() = -0.1379;
+- m_256apsk[139].imag() = -1.3595;
+- m_256apsk[140].real() = 0.0736;
+- m_256apsk[140].imag() = -0.0898;
+- m_256apsk[141].real() = 0.0742;
+- m_256apsk[141].imag() = -0.5054;
+- m_256apsk[142].real() = -0.0736;
+- m_256apsk[142].imag() = -0.0898;
+- m_256apsk[143].real() = -0.0742;
+- m_256apsk[143].imag() = -0.5054;
+- m_256apsk[144].real() = 0.0992;
+- m_256apsk[144].imag() = 0.9847;
+- m_256apsk[145].real() = 0.1170;
+- m_256apsk[145].imag() = 1.1517;
+- m_256apsk[146].real() = -0.0992;
+- m_256apsk[146].imag() = 0.9847;
+- m_256apsk[147].real() = -0.1170;
+- m_256apsk[147].imag() = 1.1517;
+- m_256apsk[148].real() = 0.0894;
+- m_256apsk[148].imag() = 0.8287;
+- m_256apsk[149].real() = 0.0889;
+- m_256apsk[149].imag() = 0.6739;
+- m_256apsk[150].real() = -0.0894;
+- m_256apsk[150].imag() = 0.8287;
+- m_256apsk[151].real() = -0.0889;
+- m_256apsk[151].imag() = 0.6739;
+- m_256apsk[152].real() = 0.0992;
+- m_256apsk[152].imag() = -0.9847;
+- m_256apsk[153].real() = 0.1170;
+- m_256apsk[153].imag() = -1.1517;
+- m_256apsk[154].real() = -0.0992;
+- m_256apsk[154].imag() = -0.9847;
+- m_256apsk[155].real() = -0.1170;
+- m_256apsk[155].imag() = -1.1517;
+- m_256apsk[156].real() = 0.0894;
+- m_256apsk[156].imag() = -0.8287;
+- m_256apsk[157].real() = 0.0889;
+- m_256apsk[157].imag() = -0.6739;
+- m_256apsk[158].real() = -0.0894;
+- m_256apsk[158].imag() = -0.8287;
+- m_256apsk[159].real() = -0.0889;
+- m_256apsk[159].imag() = -0.6739;
+- m_256apsk[160].real() = 1.0516;
+- m_256apsk[160].imag() = 1.2481;
+- m_256apsk[161].real() = 0.8742;
+- m_256apsk[161].imag() = 1.0355;
+- m_256apsk[162].real() = -1.0516;
+- m_256apsk[162].imag() = 1.2481;
+- m_256apsk[163].real() = -0.8742;
+- m_256apsk[163].imag() = 1.0355;
+- m_256apsk[164].real() = 0.0970;
+- m_256apsk[164].imag() = 0.2450;
+- m_256apsk[165].real() = 0.1959;
+- m_256apsk[165].imag() = 0.4045;
+- m_256apsk[166].real() = -0.0970;
+- m_256apsk[166].imag() = 0.2450;
+- m_256apsk[167].real() = -0.1959;
+- m_256apsk[167].imag() = 0.4045;
+- m_256apsk[168].real() = 1.0516;
+- m_256apsk[168].imag() = -1.2481;
+- m_256apsk[169].real() = 0.8742;
+- m_256apsk[169].imag() = -1.0355;
+- m_256apsk[170].real() = -1.0516;
+- m_256apsk[170].imag() = -1.2481;
+- m_256apsk[171].real() = -0.8742;
+- m_256apsk[171].imag() = -1.0355;
+- m_256apsk[172].real() = 0.0970;
+- m_256apsk[172].imag() = -0.2450;
+- m_256apsk[173].real() = 0.1959;
+- m_256apsk[173].imag() = -0.4045;
+- m_256apsk[174].real() = -0.0970;
+- m_256apsk[174].imag() = -0.2450;
+- m_256apsk[175].real() = -0.1959;
+- m_256apsk[175].imag() = -0.4045;
+- m_256apsk[176].real() = 0.6150;
+- m_256apsk[176].imag() = 0.7441;
+- m_256apsk[177].real() = 0.7345;
+- m_256apsk[177].imag() = 0.8743;
+- m_256apsk[178].real() = -0.6150;
+- m_256apsk[178].imag() = 0.7441;
+- m_256apsk[179].real() = -0.7345;
+- m_256apsk[179].imag() = 0.8743;
+- m_256apsk[180].real() = 0.4932;
+- m_256apsk[180].imag() = 0.6301;
+- m_256apsk[181].real() = 0.3620;
+- m_256apsk[181].imag() = 0.5258;
+- m_256apsk[182].real() = -0.4932;
+- m_256apsk[182].imag() = 0.6301;
+- m_256apsk[183].real() = -0.3620;
+- m_256apsk[183].imag() = 0.5258;
+- m_256apsk[184].real() = 0.6150;
+- m_256apsk[184].imag() = -0.7441;
+- m_256apsk[185].real() = 0.7345;
+- m_256apsk[185].imag() = -0.8743;
+- m_256apsk[186].real() = -0.6150;
+- m_256apsk[186].imag() = -0.7441;
+- m_256apsk[187].real() = -0.7345;
+- m_256apsk[187].imag() = -0.8743;
+- m_256apsk[188].real() = 0.4932;
+- m_256apsk[188].imag() = -0.6301;
+- m_256apsk[189].real() = 0.3620;
+- m_256apsk[189].imag() = -0.5258;
+- m_256apsk[190].real() = -0.4932;
+- m_256apsk[190].imag() = -0.6301;
+- m_256apsk[191].real() = -0.3620;
+- m_256apsk[191].imag() = -0.5258;
+- m_256apsk[192].real() = 0.4866;
+- m_256apsk[192].imag() = 1.5660;
+- m_256apsk[193].real() = 0.4068;
+- m_256apsk[193].imag() = 1.3027;
+- m_256apsk[194].real() = -0.4866;
+- m_256apsk[194].imag() = 1.5660;
+- m_256apsk[195].real() = -0.4068;
+- m_256apsk[195].imag() = 1.3027;
+- m_256apsk[196].real() = 0.0732;
+- m_256apsk[196].imag() = 0.0899;
+- m_256apsk[197].real() = 0.0877;
+- m_256apsk[197].imag() = 0.4997;
+- m_256apsk[198].real() = -0.0732;
+- m_256apsk[198].imag() = 0.0899;
+- m_256apsk[199].real() = -0.0877;
+- m_256apsk[199].imag() = 0.4997;
+- m_256apsk[200].real() = 0.4866;
+- m_256apsk[200].imag() = -1.5660;
+- m_256apsk[201].real() = 0.4068;
+- m_256apsk[201].imag() = -1.3027;
+- m_256apsk[202].real() = -0.4866;
+- m_256apsk[202].imag() = -1.5660;
+- m_256apsk[203].real() = -0.4068;
+- m_256apsk[203].imag() = -1.3027;
+- m_256apsk[204].real() = 0.0732;
+- m_256apsk[204].imag() = -0.0899;
+- m_256apsk[205].real() = 0.0877;
+- m_256apsk[205].imag() = -0.4997;
+- m_256apsk[206].real() = -0.0732;
+- m_256apsk[206].imag() = -0.0899;
+- m_256apsk[207].real() = -0.0877;
+- m_256apsk[207].imag() = -0.4997;
+- m_256apsk[208].real() = 0.2927;
+- m_256apsk[208].imag() = 0.9409;
+- m_256apsk[209].real() = 0.3446;
+- m_256apsk[209].imag() = 1.1023;
+- m_256apsk[210].real() = -0.2927;
+- m_256apsk[210].imag() = 0.9409;
+- m_256apsk[211].real() = -0.3446;
+- m_256apsk[211].imag() = 1.1023;
+- m_256apsk[212].real() = 0.2350;
+- m_256apsk[212].imag() = 0.7945;
+- m_256apsk[213].real() = 0.1670;
+- m_256apsk[213].imag() = 0.6529;
+- m_256apsk[214].real() = -0.2350;
+- m_256apsk[214].imag() = 0.7945;
+- m_256apsk[215].real() = -0.1670;
+- m_256apsk[215].imag() = 0.6529;
+- m_256apsk[216].real() = 0.2927;
+- m_256apsk[216].imag() = -0.9409;
+- m_256apsk[217].real() = 0.3446;
+- m_256apsk[217].imag() = -1.1023;
+- m_256apsk[218].real() = -0.2927;
+- m_256apsk[218].imag() = -0.9409;
+- m_256apsk[219].real() = -0.3446;
+- m_256apsk[219].imag() = -1.1023;
+- m_256apsk[220].real() = 0.2350;
+- m_256apsk[220].imag() = -0.7945;
+- m_256apsk[221].real() = 0.1670;
+- m_256apsk[221].imag() = -0.6529;
+- m_256apsk[222].real() = -0.2350;
+- m_256apsk[222].imag() = -0.7945;
+- m_256apsk[223].real() = -0.1670;
+- m_256apsk[223].imag() = -0.6529;
+- m_256apsk[224].real() = 0.7867;
+- m_256apsk[224].imag() = 1.4356;
+- m_256apsk[225].real() = 0.6561;
+- m_256apsk[225].imag() = 1.1927;
+- m_256apsk[226].real() = -0.7867;
+- m_256apsk[226].imag() = 1.4356;
+- m_256apsk[227].real() = -0.6561;
+- m_256apsk[227].imag() = 1.1927;
+- m_256apsk[228].real() = 0.0947;
+- m_256apsk[228].imag() = 0.2451;
+- m_256apsk[229].real() = 0.1865;
+- m_256apsk[229].imag() = 0.4121;
+- m_256apsk[230].real() = -0.0947;
+- m_256apsk[230].imag() = 0.2451;
+- m_256apsk[231].real() = -0.1865;
+- m_256apsk[231].imag() = 0.4121;
+- m_256apsk[232].real() = 0.7867;
+- m_256apsk[232].imag() = -1.4356;
+- m_256apsk[233].real() = 0.6561;
+- m_256apsk[233].imag() = -1.1927;
+- m_256apsk[234].real() = -0.7867;
+- m_256apsk[234].imag() = -1.4356;
+- m_256apsk[235].real() = -0.6561;
+- m_256apsk[235].imag() = -1.1927;
+- m_256apsk[236].real() = 0.0947;
+- m_256apsk[236].imag() = -0.2451;
+- m_256apsk[237].real() = 0.1865;
+- m_256apsk[237].imag() = -0.4121;
+- m_256apsk[238].real() = -0.0947;
+- m_256apsk[238].imag() = -0.2451;
+- m_256apsk[239].real() = -0.1865;
+- m_256apsk[239].imag() = -0.4121;
+- m_256apsk[240].real() = 0.4677;
+- m_256apsk[240].imag() = 0.8579;
+- m_256apsk[241].real() = 0.5537;
+- m_256apsk[241].imag() = 1.0081;
+- m_256apsk[242].real() = -0.4677;
+- m_256apsk[242].imag() = 0.8579;
+- m_256apsk[243].real() = -0.5537;
+- m_256apsk[243].imag() = 1.0081;
+- m_256apsk[244].real() = 0.3893;
+- m_256apsk[244].imag() = 0.7143;
+- m_256apsk[245].real() = 0.3110;
+- m_256apsk[245].imag() = 0.5686;
+- m_256apsk[246].real() = -0.3893;
+- m_256apsk[246].imag() = 0.7143;
+- m_256apsk[247].real() = -0.3110;
+- m_256apsk[247].imag() = 0.5686;
+- m_256apsk[248].real() = 0.4677;
+- m_256apsk[248].imag() = -0.8579;
+- m_256apsk[249].real() = 0.5537;
+- m_256apsk[249].imag() = -1.0081;
+- m_256apsk[250].real() = -0.4677;
+- m_256apsk[250].imag() = -0.8579;
+- m_256apsk[251].real() = -0.5537;
+- m_256apsk[251].imag() = -1.0081;
+- m_256apsk[252].real() = 0.3893;
+- m_256apsk[252].imag() = -0.7143;
+- m_256apsk[253].real() = 0.3110;
+- m_256apsk[253].imag() = -0.5686;
+- m_256apsk[254].real() = -0.3893;
+- m_256apsk[254].imag() = -0.7143;
+- m_256apsk[255].real() = -0.3110;
+- m_256apsk[255].imag() = -0.5686;
+- for (int i = 0; i < 256; i++)
+- {
+- m_256apsk[i].real() /= 1.6329;
+- m_256apsk[i].imag() /= 1.6329;
+- }
+- }
+- else
+- {
+- r8 = m;
+- switch(rate)
+- {
+- case gr::dvbs2::C116_180:
+- case gr::dvbs2::C124_180:
+- r1 = r8 / 6.536;
+- r7 = r1 * 5.078;
+- r6 = r1 * 4.235;
+- r5 = r1 * 3.569;
+- r4 = r1 * 2.98;
+- r3 = r1 * 2.405;
+- r2 = r1 * 1.791;
+- break;
+- case gr::dvbs2::C128_180:
+- r1 = r8 / 5.4;
+- r7 = r1 * 4.6;
+- r6 = r1 * 4.045;
+- r5 = r1 * 3.579;
+- r4 = r1 * 2.986;
+- r3 = r1 * 2.409;
+- r2 = r1 * 1.794;
+- break;
+- case gr::dvbs2::C135_180:
+- r1 = r8 / 5.2;
+- r7 = r1 * 4.5;
+- r6 = r1 * 4.045;
+- r5 = r1 * 3.579;
+- r4 = r1 * 2.986;
+- r3 = r1 * 2.409;
+- r2 = r1 * 1.794;
+- break;
+- default:
+- r1 = 0;
+- r2 = 0;
+- r3 = 0;
+- r4 = 0;
+- r5 = 0;
+- r6 = 0;
+- r7 = 0;
+- break;
+- }
+- m_256apsk[0].real() = (r1 * cos(M_PI / 32.0));
+- m_256apsk[0].imag() = (r1 * sin(M_PI / 32.0));
+- m_256apsk[1].real() = (r1 * cos(3 * M_PI / 32.0));
+- m_256apsk[1].imag() = (r1 * sin(3 * M_PI / 32.0));
+- m_256apsk[2].real() = (r1 * cos(7 * M_PI / 32.0));
+- m_256apsk[2].imag() = (r1 * sin(7 * M_PI / 32.0));
+- m_256apsk[3].real() = (r1 * cos(5 * M_PI / 32.0));
+- m_256apsk[3].imag() = (r1 * sin(5 * M_PI / 32.0));
+- m_256apsk[4].real() = (r1 * cos(15 * M_PI / 32.0));
+- m_256apsk[4].imag() = (r1 * sin(15 * M_PI / 32.0));
+- m_256apsk[5].real() = (r1 * cos(13 * M_PI / 32.0));
+- m_256apsk[5].imag() = (r1 * sin(13 * M_PI / 32.0));
+- m_256apsk[6].real() = (r1 * cos(9 * M_PI / 32.0));
+- m_256apsk[6].imag() = (r1 * sin(9 * M_PI / 32.0));
+- m_256apsk[7].real() = (r1 * cos(11 * M_PI / 32.0));
+- m_256apsk[7].imag() = (r1 * sin(11 * M_PI / 32.0));
+- m_256apsk[8].real() = (r1 * cos(31 * M_PI / 32.0));
+- m_256apsk[8].imag() = (r1 * sin(31 * M_PI / 32.0));
+- m_256apsk[9].real() = (r1 * cos(29 * M_PI / 32.0));
+- m_256apsk[9].imag() = (r1 * sin(29 * M_PI / 32.0));
+- m_256apsk[10].real() = (r1 * cos(25 * M_PI / 32.0));
+- m_256apsk[10].imag() = (r1 * sin(25 * M_PI / 32.0));
+- m_256apsk[11].real() = (r1 * cos(27 * M_PI / 32.0));
+- m_256apsk[11].imag() = (r1 * sin(27 * M_PI / 32.0));
+- m_256apsk[12].real() = (r1 * cos(17 * M_PI / 32.0));
+- m_256apsk[12].imag() = (r1 * sin(17 * M_PI / 32.0));
+- m_256apsk[13].real() = (r1 * cos(19 * M_PI / 32.0));
+- m_256apsk[13].imag() = (r1 * sin(19 * M_PI / 32.0));
+- m_256apsk[14].real() = (r1 * cos(23 * M_PI / 32.0));
+- m_256apsk[14].imag() = (r1 * sin(23 * M_PI / 32.0));
+- m_256apsk[15].real() = (r1 * cos(21 * M_PI / 32.0));
+- m_256apsk[15].imag() = (r1 * sin(21 * M_PI / 32.0));
+- m_256apsk[16].real() = (r1 * cos(-1 * M_PI / 32.0));
+- m_256apsk[16].imag() = (r1 * sin(-1 * M_PI / 32.0));
+- m_256apsk[17].real() = (r1 * cos(-3 * M_PI / 32.0));
+- m_256apsk[17].imag() = (r1 * sin(-3 * M_PI / 32.0));
+- m_256apsk[18].real() = (r1 * cos(-7 * M_PI / 32.0));
+- m_256apsk[18].imag() = (r1 * sin(-7 * M_PI / 32.0));
+- m_256apsk[19].real() = (r1 * cos(-5 * M_PI / 32.0));
+- m_256apsk[19].imag() = (r1 * sin(-5 * M_PI / 32.0));
+- m_256apsk[20].real() = (r1 * cos(-15 * M_PI / 32.0));
+- m_256apsk[20].imag() = (r1 * sin(-15 * M_PI / 32.0));
+- m_256apsk[21].real() = (r1 * cos(-13 * M_PI / 32.0));
+- m_256apsk[21].imag() = (r1 * sin(-13 * M_PI / 32.0));
+- m_256apsk[22].real() = (r1 * cos(-9 * M_PI / 32.0));
+- m_256apsk[22].imag() = (r1 * sin(-9 * M_PI / 32.0));
+- m_256apsk[23].real() = (r1 * cos(-11 * M_PI / 32.0));
+- m_256apsk[23].imag() = (r1 * sin(-11 * M_PI / 32.0));
+- m_256apsk[24].real() = (r1 * cos(33 * M_PI / 32.0));
+- m_256apsk[24].imag() = (r1 * sin(33 * M_PI / 32.0));
+- m_256apsk[25].real() = (r1 * cos(35 * M_PI / 32.0));
+- m_256apsk[25].imag() = (r1 * sin(35 * M_PI / 32.0));
+- m_256apsk[26].real() = (r1 * cos(39 * M_PI / 32.0));
+- m_256apsk[26].imag() = (r1 * sin(39 * M_PI / 32.0));
+- m_256apsk[27].real() = (r1 * cos(37 * M_PI / 32.0));
+- m_256apsk[27].imag() = (r1 * sin(37 * M_PI / 32.0));
+- m_256apsk[28].real() = (r1 * cos(47 * M_PI / 32.0));
+- m_256apsk[28].imag() = (r1 * sin(47 * M_PI / 32.0));
+- m_256apsk[29].real() = (r1 * cos(45 * M_PI / 32.0));
+- m_256apsk[29].imag() = (r1 * sin(45 * M_PI / 32.0));
+- m_256apsk[30].real() = (r1 * cos(41 * M_PI / 32.0));
+- m_256apsk[30].imag() = (r1 * sin(41 * M_PI / 32.0));
+- m_256apsk[31].real() = (r1 * cos(43 * M_PI / 32.0));
+- m_256apsk[31].imag() = (r1 * sin(43 * M_PI / 32.0));
+- m_256apsk[32].real() = (r2 * cos(M_PI / 32.0));
+- m_256apsk[32].imag() = (r2 * sin(M_PI / 32.0));
+- m_256apsk[33].real() = (r2 * cos(3 * M_PI / 32.0));
+- m_256apsk[33].imag() = (r2 * sin(3 * M_PI / 32.0));
+- m_256apsk[34].real() = (r2 * cos(7 * M_PI / 32.0));
+- m_256apsk[34].imag() = (r2 * sin(7 * M_PI / 32.0));
+- m_256apsk[35].real() = (r2 * cos(5 * M_PI / 32.0));
+- m_256apsk[35].imag() = (r2 * sin(5 * M_PI / 32.0));
+- m_256apsk[36].real() = (r2 * cos(15 * M_PI / 32.0));
+- m_256apsk[36].imag() = (r2 * sin(15 * M_PI / 32.0));
+- m_256apsk[37].real() = (r2 * cos(13 * M_PI / 32.0));
+- m_256apsk[37].imag() = (r2 * sin(13 * M_PI / 32.0));
+- m_256apsk[38].real() = (r2 * cos(9 * M_PI / 32.0));
+- m_256apsk[38].imag() = (r2 * sin(9 * M_PI / 32.0));
+- m_256apsk[39].real() = (r2 * cos(11 * M_PI / 32.0));
+- m_256apsk[39].imag() = (r2 * sin(11 * M_PI / 32.0));
+- m_256apsk[40].real() = (r2 * cos(31 * M_PI / 32.0));
+- m_256apsk[40].imag() = (r2 * sin(31 * M_PI / 32.0));
+- m_256apsk[41].real() = (r2 * cos(29 * M_PI / 32.0));
+- m_256apsk[41].imag() = (r2 * sin(29 * M_PI / 32.0));
+- m_256apsk[42].real() = (r2 * cos(25 * M_PI / 32.0));
+- m_256apsk[42].imag() = (r2 * sin(25 * M_PI / 32.0));
+- m_256apsk[43].real() = (r2 * cos(27 * M_PI / 32.0));
+- m_256apsk[43].imag() = (r2 * sin(27 * M_PI / 32.0));
+- m_256apsk[44].real() = (r2 * cos(17 * M_PI / 32.0));
+- m_256apsk[44].imag() = (r2 * sin(17 * M_PI / 32.0));
+- m_256apsk[45].real() = (r2 * cos(19 * M_PI / 32.0));
+- m_256apsk[45].imag() = (r2 * sin(19 * M_PI / 32.0));
+- m_256apsk[46].real() = (r2 * cos(23 * M_PI / 32.0));
+- m_256apsk[46].imag() = (r2 * sin(23 * M_PI / 32.0));
+- m_256apsk[47].real() = (r2 * cos(21 * M_PI / 32.0));
+- m_256apsk[47].imag() = (r2 * sin(21 * M_PI / 32.0));
+- m_256apsk[48].real() = (r2 * cos(-1 * M_PI / 32.0));
+- m_256apsk[48].imag() = (r2 * sin(-1 * M_PI / 32.0));
+- m_256apsk[49].real() = (r2 * cos(-3 * M_PI / 32.0));
+- m_256apsk[49].imag() = (r2 * sin(-3 * M_PI / 32.0));
+- m_256apsk[50].real() = (r2 * cos(-7 * M_PI / 32.0));
+- m_256apsk[50].imag() = (r2 * sin(-7 * M_PI / 32.0));
+- m_256apsk[51].real() = (r2 * cos(-5 * M_PI / 32.0));
+- m_256apsk[51].imag() = (r2 * sin(-5 * M_PI / 32.0));
+- m_256apsk[52].real() = (r2 * cos(-15 * M_PI / 32.0));
+- m_256apsk[52].imag() = (r2 * sin(-15 * M_PI / 32.0));
+- m_256apsk[53].real() = (r2 * cos(-13 * M_PI / 32.0));
+- m_256apsk[53].imag() = (r2 * sin(-13 * M_PI / 32.0));
+- m_256apsk[54].real() = (r2 * cos(-9 * M_PI / 32.0));
+- m_256apsk[54].imag() = (r2 * sin(-9 * M_PI / 32.0));
+- m_256apsk[55].real() = (r2 * cos(-11 * M_PI / 32.0));
+- m_256apsk[55].imag() = (r2 * sin(-11 * M_PI / 32.0));
+- m_256apsk[56].real() = (r2 * cos(33 * M_PI / 32.0));
+- m_256apsk[56].imag() = (r2 * sin(33 * M_PI / 32.0));
+- m_256apsk[57].real() = (r2 * cos(35 * M_PI / 32.0));
+- m_256apsk[57].imag() = (r2 * sin(35 * M_PI / 32.0));
+- m_256apsk[58].real() = (r2 * cos(39 * M_PI / 32.0));
+- m_256apsk[58].imag() = (r2 * sin(39 * M_PI / 32.0));
+- m_256apsk[59].real() = (r2 * cos(37 * M_PI / 32.0));
+- m_256apsk[59].imag() = (r2 * sin(37 * M_PI / 32.0));
+- m_256apsk[60].real() = (r2 * cos(47 * M_PI / 32.0));
+- m_256apsk[60].imag() = (r2 * sin(47 * M_PI / 32.0));
+- m_256apsk[61].real() = (r2 * cos(45 * M_PI / 32.0));
+- m_256apsk[61].imag() = (r2 * sin(45 * M_PI / 32.0));
+- m_256apsk[62].real() = (r2 * cos(41 * M_PI / 32.0));
+- m_256apsk[62].imag() = (r2 * sin(41 * M_PI / 32.0));
+- m_256apsk[63].real() = (r2 * cos(43 * M_PI / 32.0));
+- m_256apsk[63].imag() = (r2 * sin(43 * M_PI / 32.0));
+- m_256apsk[64].real() = (r4 * cos(M_PI / 32.0));
+- m_256apsk[64].imag() = (r4 * sin(M_PI / 32.0));
+- m_256apsk[65].real() = (r4 * cos(3 * M_PI / 32.0));
+- m_256apsk[65].imag() = (r4 * sin(3 * M_PI / 32.0));
+- m_256apsk[66].real() = (r4 * cos(7 * M_PI / 32.0));
+- m_256apsk[66].imag() = (r4 * sin(7 * M_PI / 32.0));
+- m_256apsk[67].real() = (r4 * cos(5 * M_PI / 32.0));
+- m_256apsk[67].imag() = (r4 * sin(5 * M_PI / 32.0));
+- m_256apsk[68].real() = (r4 * cos(15 * M_PI / 32.0));
+- m_256apsk[68].imag() = (r4 * sin(15 * M_PI / 32.0));
+- m_256apsk[69].real() = (r4 * cos(13 * M_PI / 32.0));
+- m_256apsk[69].imag() = (r4 * sin(13 * M_PI / 32.0));
+- m_256apsk[70].real() = (r4 * cos(9 * M_PI / 32.0));
+- m_256apsk[70].imag() = (r4 * sin(9 * M_PI / 32.0));
+- m_256apsk[71].real() = (r4 * cos(11 * M_PI / 32.0));
+- m_256apsk[71].imag() = (r4 * sin(11 * M_PI / 32.0));
+- m_256apsk[72].real() = (r4 * cos(31 * M_PI / 32.0));
+- m_256apsk[72].imag() = (r4 * sin(31 * M_PI / 32.0));
+- m_256apsk[73].real() = (r4 * cos(29 * M_PI / 32.0));
+- m_256apsk[73].imag() = (r4 * sin(29 * M_PI / 32.0));
+- m_256apsk[74].real() = (r4 * cos(25 * M_PI / 32.0));
+- m_256apsk[74].imag() = (r4 * sin(25 * M_PI / 32.0));
+- m_256apsk[75].real() = (r4 * cos(27 * M_PI / 32.0));
+- m_256apsk[75].imag() = (r4 * sin(27 * M_PI / 32.0));
+- m_256apsk[76].real() = (r4 * cos(17 * M_PI / 32.0));
+- m_256apsk[76].imag() = (r4 * sin(17 * M_PI / 32.0));
+- m_256apsk[77].real() = (r4 * cos(19 * M_PI / 32.0));
+- m_256apsk[77].imag() = (r4 * sin(19 * M_PI / 32.0));
+- m_256apsk[78].real() = (r4 * cos(23 * M_PI / 32.0));
+- m_256apsk[78].imag() = (r4 * sin(23 * M_PI / 32.0));
+- m_256apsk[79].real() = (r4 * cos(21 * M_PI / 32.0));
+- m_256apsk[79].imag() = (r4 * sin(21 * M_PI / 32.0));
+- m_256apsk[80].real() = (r4 * cos(-1 * M_PI / 32.0));
+- m_256apsk[80].imag() = (r4 * sin(-1 * M_PI / 32.0));
+- m_256apsk[81].real() = (r4 * cos(-3 * M_PI / 32.0));
+- m_256apsk[81].imag() = (r4 * sin(-3 * M_PI / 32.0));
+- m_256apsk[82].real() = (r4 * cos(-7 * M_PI / 32.0));
+- m_256apsk[82].imag() = (r4 * sin(-7 * M_PI / 32.0));
+- m_256apsk[83].real() = (r4 * cos(-5 * M_PI / 32.0));
+- m_256apsk[83].imag() = (r4 * sin(-5 * M_PI / 32.0));
+- m_256apsk[84].real() = (r4 * cos(-15 * M_PI / 32.0));
+- m_256apsk[84].imag() = (r4 * sin(-15 * M_PI / 32.0));
+- m_256apsk[85].real() = (r4 * cos(-13 * M_PI / 32.0));
+- m_256apsk[85].imag() = (r4 * sin(-13 * M_PI / 32.0));
+- m_256apsk[86].real() = (r4 * cos(-9 * M_PI / 32.0));
+- m_256apsk[86].imag() = (r4 * sin(-9 * M_PI / 32.0));
+- m_256apsk[87].real() = (r4 * cos(-11 * M_PI / 32.0));
+- m_256apsk[87].imag() = (r4 * sin(-11 * M_PI / 32.0));
+- m_256apsk[88].real() = (r4 * cos(33 * M_PI / 32.0));
+- m_256apsk[88].imag() = (r4 * sin(33 * M_PI / 32.0));
+- m_256apsk[89].real() = (r4 * cos(35 * M_PI / 32.0));
+- m_256apsk[89].imag() = (r4 * sin(35 * M_PI / 32.0));
+- m_256apsk[90].real() = (r4 * cos(39 * M_PI / 32.0));
+- m_256apsk[90].imag() = (r4 * sin(39 * M_PI / 32.0));
+- m_256apsk[91].real() = (r4 * cos(37 * M_PI / 32.0));
+- m_256apsk[91].imag() = (r4 * sin(37 * M_PI / 32.0));
+- m_256apsk[92].real() = (r4 * cos(47 * M_PI / 32.0));
+- m_256apsk[92].imag() = (r4 * sin(47 * M_PI / 32.0));
+- m_256apsk[93].real() = (r4 * cos(45 * M_PI / 32.0));
+- m_256apsk[93].imag() = (r4 * sin(45 * M_PI / 32.0));
+- m_256apsk[94].real() = (r4 * cos(41 * M_PI / 32.0));
+- m_256apsk[94].imag() = (r4 * sin(41 * M_PI / 32.0));
+- m_256apsk[95].real() = (r4 * cos(43 * M_PI / 32.0));
+- m_256apsk[95].imag() = (r4 * sin(43 * M_PI / 32.0));
+- m_256apsk[96].real() = (r3 * cos(M_PI / 32.0));
+- m_256apsk[96].imag() = (r3 * sin(M_PI / 32.0));
+- m_256apsk[97].real() = (r3 * cos(3 * M_PI / 32.0));
+- m_256apsk[97].imag() = (r3 * sin(3 * M_PI / 32.0));
+- m_256apsk[98].real() = (r3 * cos(7 * M_PI / 32.0));
+- m_256apsk[98].imag() = (r3 * sin(7 * M_PI / 32.0));
+- m_256apsk[99].real() = (r3 * cos(5 * M_PI / 32.0));
+- m_256apsk[99].imag() = (r3 * sin(5 * M_PI / 32.0));
+- m_256apsk[100].real() = (r3 * cos(15 * M_PI / 32.0));
+- m_256apsk[100].imag() = (r3 * sin(15 * M_PI / 32.0));
+- m_256apsk[101].real() = (r3 * cos(13 * M_PI / 32.0));
+- m_256apsk[101].imag() = (r3 * sin(13 * M_PI / 32.0));
+- m_256apsk[102].real() = (r3 * cos(9 * M_PI / 32.0));
+- m_256apsk[102].imag() = (r3 * sin(9 * M_PI / 32.0));
+- m_256apsk[103].real() = (r3 * cos(11 * M_PI / 32.0));
+- m_256apsk[103].imag() = (r3 * sin(11 * M_PI / 32.0));
+- m_256apsk[104].real() = (r3 * cos(31 * M_PI / 32.0));
+- m_256apsk[104].imag() = (r3 * sin(31 * M_PI / 32.0));
+- m_256apsk[105].real() = (r3 * cos(29 * M_PI / 32.0));
+- m_256apsk[105].imag() = (r3 * sin(29 * M_PI / 32.0));
+- m_256apsk[106].real() = (r3 * cos(25 * M_PI / 32.0));
+- m_256apsk[106].imag() = (r3 * sin(25 * M_PI / 32.0));
+- m_256apsk[107].real() = (r3 * cos(27 * M_PI / 32.0));
+- m_256apsk[107].imag() = (r3 * sin(27 * M_PI / 32.0));
+- m_256apsk[108].real() = (r3 * cos(17 * M_PI / 32.0));
+- m_256apsk[108].imag() = (r3 * sin(17 * M_PI / 32.0));
+- m_256apsk[109].real() = (r3 * cos(19 * M_PI / 32.0));
+- m_256apsk[109].imag() = (r3 * sin(19 * M_PI / 32.0));
+- m_256apsk[110].real() = (r3 * cos(23 * M_PI / 32.0));
+- m_256apsk[110].imag() = (r3 * sin(23 * M_PI / 32.0));
+- m_256apsk[111].real() = (r3 * cos(21 * M_PI / 32.0));
+- m_256apsk[111].imag() = (r3 * sin(21 * M_PI / 32.0));
+- m_256apsk[112].real() = (r3 * cos(-1 * M_PI / 32.0));
+- m_256apsk[112].imag() = (r3 * sin(-1 * M_PI / 32.0));
+- m_256apsk[113].real() = (r3 * cos(-3 * M_PI / 32.0));
+- m_256apsk[113].imag() = (r3 * sin(-3 * M_PI / 32.0));
+- m_256apsk[114].real() = (r3 * cos(-7 * M_PI / 32.0));
+- m_256apsk[114].imag() = (r3 * sin(-7 * M_PI / 32.0));
+- m_256apsk[115].real() = (r3 * cos(-5 * M_PI / 32.0));
+- m_256apsk[115].imag() = (r3 * sin(-5 * M_PI / 32.0));
+- m_256apsk[116].real() = (r3 * cos(-15 * M_PI / 32.0));
+- m_256apsk[116].imag() = (r3 * sin(-15 * M_PI / 32.0));
+- m_256apsk[117].real() = (r3 * cos(-13 * M_PI / 32.0));
+- m_256apsk[117].imag() = (r3 * sin(-13 * M_PI / 32.0));
+- m_256apsk[118].real() = (r3 * cos(-9 * M_PI / 32.0));
+- m_256apsk[118].imag() = (r3 * sin(-9 * M_PI / 32.0));
+- m_256apsk[119].real() = (r3 * cos(-11 * M_PI / 32.0));
+- m_256apsk[119].imag() = (r3 * sin(-11 * M_PI / 32.0));
+- m_256apsk[120].real() = (r3 * cos(33 * M_PI / 32.0));
+- m_256apsk[120].imag() = (r3 * sin(33 * M_PI / 32.0));
+- m_256apsk[121].real() = (r3 * cos(35 * M_PI / 32.0));
+- m_256apsk[121].imag() = (r3 * sin(35 * M_PI / 32.0));
+- m_256apsk[122].real() = (r3 * cos(39 * M_PI / 32.0));
+- m_256apsk[122].imag() = (r3 * sin(39 * M_PI / 32.0));
+- m_256apsk[123].real() = (r3 * cos(37 * M_PI / 32.0));
+- m_256apsk[123].imag() = (r3 * sin(37 * M_PI / 32.0));
+- m_256apsk[124].real() = (r3 * cos(47 * M_PI / 32.0));
+- m_256apsk[124].imag() = (r3 * sin(47 * M_PI / 32.0));
+- m_256apsk[125].real() = (r3 * cos(45 * M_PI / 32.0));
+- m_256apsk[125].imag() = (r3 * sin(45 * M_PI / 32.0));
+- m_256apsk[126].real() = (r3 * cos(41 * M_PI / 32.0));
+- m_256apsk[126].imag() = (r3 * sin(41 * M_PI / 32.0));
+- m_256apsk[127].real() = (r3 * cos(43 * M_PI / 32.0));
+- m_256apsk[127].imag() = (r3 * sin(43 * M_PI / 32.0));
+- m_256apsk[128].real() = (r8 * cos(M_PI / 32.0));
+- m_256apsk[128].imag() = (r8 * sin(M_PI / 32.0));
+- m_256apsk[129].real() = (r8 * cos(3 * M_PI / 32.0));
+- m_256apsk[129].imag() = (r8 * sin(3 * M_PI / 32.0));
+- m_256apsk[130].real() = (r8 * cos(7 * M_PI / 32.0));
+- m_256apsk[130].imag() = (r8 * sin(7 * M_PI / 32.0));
+- m_256apsk[131].real() = (r8 * cos(5 * M_PI / 32.0));
+- m_256apsk[131].imag() = (r8 * sin(5 * M_PI / 32.0));
+- m_256apsk[132].real() = (r8 * cos(15 * M_PI / 32.0));
+- m_256apsk[132].imag() = (r8 * sin(15 * M_PI / 32.0));
+- m_256apsk[133].real() = (r8 * cos(13 * M_PI / 32.0));
+- m_256apsk[133].imag() = (r8 * sin(13 * M_PI / 32.0));
+- m_256apsk[134].real() = (r8 * cos(9 * M_PI / 32.0));
+- m_256apsk[134].imag() = (r8 * sin(9 * M_PI / 32.0));
+- m_256apsk[135].real() = (r8 * cos(11 * M_PI / 32.0));
+- m_256apsk[135].imag() = (r8 * sin(11 * M_PI / 32.0));
+- m_256apsk[136].real() = (r8 * cos(31 * M_PI / 32.0));
+- m_256apsk[136].imag() = (r8 * sin(31 * M_PI / 32.0));
+- m_256apsk[137].real() = (r8 * cos(29 * M_PI / 32.0));
+- m_256apsk[137].imag() = (r8 * sin(29 * M_PI / 32.0));
+- m_256apsk[138].real() = (r8 * cos(25 * M_PI / 32.0));
+- m_256apsk[138].imag() = (r8 * sin(25 * M_PI / 32.0));
+- m_256apsk[139].real() = (r8 * cos(27 * M_PI / 32.0));
+- m_256apsk[139].imag() = (r8 * sin(27 * M_PI / 32.0));
+- m_256apsk[140].real() = (r8 * cos(17 * M_PI / 32.0));
+- m_256apsk[140].imag() = (r8 * sin(17 * M_PI / 32.0));
+- m_256apsk[141].real() = (r8 * cos(19 * M_PI / 32.0));
+- m_256apsk[141].imag() = (r8 * sin(19 * M_PI / 32.0));
+- m_256apsk[142].real() = (r8 * cos(23 * M_PI / 32.0));
+- m_256apsk[142].imag() = (r8 * sin(23 * M_PI / 32.0));
+- m_256apsk[143].real() = (r8 * cos(21 * M_PI / 32.0));
+- m_256apsk[143].imag() = (r8 * sin(21 * M_PI / 32.0));
+- m_256apsk[144].real() = (r8 * cos(-1 * M_PI / 32.0));
+- m_256apsk[144].imag() = (r8 * sin(-1 * M_PI / 32.0));
+- m_256apsk[145].real() = (r8 * cos(-3 * M_PI / 32.0));
+- m_256apsk[145].imag() = (r8 * sin(-3 * M_PI / 32.0));
+- m_256apsk[146].real() = (r8 * cos(-7 * M_PI / 32.0));
+- m_256apsk[146].imag() = (r8 * sin(-7 * M_PI / 32.0));
+- m_256apsk[147].real() = (r8 * cos(-5 * M_PI / 32.0));
+- m_256apsk[147].imag() = (r8 * sin(-5 * M_PI / 32.0));
+- m_256apsk[148].real() = (r8 * cos(-15 * M_PI / 32.0));
+- m_256apsk[148].imag() = (r8 * sin(-15 * M_PI / 32.0));
+- m_256apsk[149].real() = (r8 * cos(-13 * M_PI / 32.0));
+- m_256apsk[149].imag() = (r8 * sin(-13 * M_PI / 32.0));
+- m_256apsk[150].real() = (r8 * cos(-9 * M_PI / 32.0));
+- m_256apsk[150].imag() = (r8 * sin(-9 * M_PI / 32.0));
+- m_256apsk[151].real() = (r8 * cos(-11 * M_PI / 32.0));
+- m_256apsk[151].imag() = (r8 * sin(-11 * M_PI / 32.0));
+- m_256apsk[152].real() = (r8 * cos(33 * M_PI / 32.0));
+- m_256apsk[152].imag() = (r8 * sin(33 * M_PI / 32.0));
+- m_256apsk[153].real() = (r8 * cos(35 * M_PI / 32.0));
+- m_256apsk[153].imag() = (r8 * sin(35 * M_PI / 32.0));
+- m_256apsk[154].real() = (r8 * cos(39 * M_PI / 32.0));
+- m_256apsk[154].imag() = (r8 * sin(39 * M_PI / 32.0));
+- m_256apsk[155].real() = (r8 * cos(37 * M_PI / 32.0));
+- m_256apsk[155].imag() = (r8 * sin(37 * M_PI / 32.0));
+- m_256apsk[156].real() = (r8 * cos(47 * M_PI / 32.0));
+- m_256apsk[156].imag() = (r8 * sin(47 * M_PI / 32.0));
+- m_256apsk[157].real() = (r8 * cos(45 * M_PI / 32.0));
+- m_256apsk[157].imag() = (r8 * sin(45 * M_PI / 32.0));
+- m_256apsk[158].real() = (r8 * cos(41 * M_PI / 32.0));
+- m_256apsk[158].imag() = (r8 * sin(41 * M_PI / 32.0));
+- m_256apsk[159].real() = (r8 * cos(43 * M_PI / 32.0));
+- m_256apsk[159].imag() = (r8 * sin(43 * M_PI / 32.0));
+- m_256apsk[160].real() = (r7 * cos(M_PI / 32.0));
+- m_256apsk[160].imag() = (r7 * sin(M_PI / 32.0));
+- m_256apsk[161].real() = (r7 * cos(3 * M_PI / 32.0));
+- m_256apsk[161].imag() = (r7 * sin(3 * M_PI / 32.0));
+- m_256apsk[162].real() = (r7 * cos(7 * M_PI / 32.0));
+- m_256apsk[162].imag() = (r7 * sin(7 * M_PI / 32.0));
+- m_256apsk[163].real() = (r7 * cos(5 * M_PI / 32.0));
+- m_256apsk[163].imag() = (r7 * sin(5 * M_PI / 32.0));
+- m_256apsk[164].real() = (r7 * cos(15 * M_PI / 32.0));
+- m_256apsk[164].imag() = (r7 * sin(15 * M_PI / 32.0));
+- m_256apsk[165].real() = (r7 * cos(13 * M_PI / 32.0));
+- m_256apsk[165].imag() = (r7 * sin(13 * M_PI / 32.0));
+- m_256apsk[166].real() = (r7 * cos(9 * M_PI / 32.0));
+- m_256apsk[166].imag() = (r7 * sin(9 * M_PI / 32.0));
+- m_256apsk[167].real() = (r7 * cos(11 * M_PI / 32.0));
+- m_256apsk[167].imag() = (r7 * sin(11 * M_PI / 32.0));
+- m_256apsk[168].real() = (r7 * cos(31 * M_PI / 32.0));
+- m_256apsk[168].imag() = (r7 * sin(31 * M_PI / 32.0));
+- m_256apsk[169].real() = (r7 * cos(29 * M_PI / 32.0));
+- m_256apsk[169].imag() = (r7 * sin(29 * M_PI / 32.0));
+- m_256apsk[170].real() = (r7 * cos(25 * M_PI / 32.0));
+- m_256apsk[170].imag() = (r7 * sin(25 * M_PI / 32.0));
+- m_256apsk[171].real() = (r7 * cos(27 * M_PI / 32.0));
+- m_256apsk[171].imag() = (r7 * sin(27 * M_PI / 32.0));
+- m_256apsk[172].real() = (r7 * cos(17 * M_PI / 32.0));
+- m_256apsk[172].imag() = (r7 * sin(17 * M_PI / 32.0));
+- m_256apsk[173].real() = (r7 * cos(19 * M_PI / 32.0));
+- m_256apsk[173].imag() = (r7 * sin(19 * M_PI / 32.0));
+- m_256apsk[174].real() = (r7 * cos(23 * M_PI / 32.0));
+- m_256apsk[174].imag() = (r7 * sin(23 * M_PI / 32.0));
+- m_256apsk[175].real() = (r7 * cos(21 * M_PI / 32.0));
+- m_256apsk[175].imag() = (r7 * sin(21 * M_PI / 32.0));
+- m_256apsk[176].real() = (r7 * cos(-1 * M_PI / 32.0));
+- m_256apsk[176].imag() = (r7 * sin(-1 * M_PI / 32.0));
+- m_256apsk[177].real() = (r7 * cos(-3 * M_PI / 32.0));
+- m_256apsk[177].imag() = (r7 * sin(-3 * M_PI / 32.0));
+- m_256apsk[178].real() = (r7 * cos(-7 * M_PI / 32.0));
+- m_256apsk[178].imag() = (r7 * sin(-7 * M_PI / 32.0));
+- m_256apsk[179].real() = (r7 * cos(-5 * M_PI / 32.0));
+- m_256apsk[179].imag() = (r7 * sin(-5 * M_PI / 32.0));
+- m_256apsk[180].real() = (r7 * cos(-15 * M_PI / 32.0));
+- m_256apsk[180].imag() = (r7 * sin(-15 * M_PI / 32.0));
+- m_256apsk[181].real() = (r7 * cos(-13 * M_PI / 32.0));
+- m_256apsk[181].imag() = (r7 * sin(-13 * M_PI / 32.0));
+- m_256apsk[182].real() = (r7 * cos(-9 * M_PI / 32.0));
+- m_256apsk[182].imag() = (r7 * sin(-9 * M_PI / 32.0));
+- m_256apsk[183].real() = (r7 * cos(-11 * M_PI / 32.0));
+- m_256apsk[183].imag() = (r7 * sin(-11 * M_PI / 32.0));
+- m_256apsk[184].real() = (r7 * cos(33 * M_PI / 32.0));
+- m_256apsk[184].imag() = (r7 * sin(33 * M_PI / 32.0));
+- m_256apsk[185].real() = (r7 * cos(35 * M_PI / 32.0));
+- m_256apsk[185].imag() = (r7 * sin(35 * M_PI / 32.0));
+- m_256apsk[186].real() = (r7 * cos(39 * M_PI / 32.0));
+- m_256apsk[186].imag() = (r7 * sin(39 * M_PI / 32.0));
+- m_256apsk[187].real() = (r7 * cos(37 * M_PI / 32.0));
+- m_256apsk[187].imag() = (r7 * sin(37 * M_PI / 32.0));
+- m_256apsk[188].real() = (r7 * cos(47 * M_PI / 32.0));
+- m_256apsk[188].imag() = (r7 * sin(47 * M_PI / 32.0));
+- m_256apsk[189].real() = (r7 * cos(45 * M_PI / 32.0));
+- m_256apsk[189].imag() = (r7 * sin(45 * M_PI / 32.0));
+- m_256apsk[190].real() = (r7 * cos(41 * M_PI / 32.0));
+- m_256apsk[190].imag() = (r7 * sin(41 * M_PI / 32.0));
+- m_256apsk[191].real() = (r7 * cos(43 * M_PI / 32.0));
+- m_256apsk[191].imag() = (r7 * sin(43 * M_PI / 32.0));
+- m_256apsk[192].real() = (r5 * cos(M_PI / 32.0));
+- m_256apsk[192].imag() = (r5 * sin(M_PI / 32.0));
+- m_256apsk[193].real() = (r5 * cos(3 * M_PI / 32.0));
+- m_256apsk[193].imag() = (r5 * sin(3 * M_PI / 32.0));
+- m_256apsk[194].real() = (r5 * cos(7 * M_PI / 32.0));
+- m_256apsk[194].imag() = (r5 * sin(7 * M_PI / 32.0));
+- m_256apsk[195].real() = (r5 * cos(5 * M_PI / 32.0));
+- m_256apsk[195].imag() = (r5 * sin(5 * M_PI / 32.0));
+- m_256apsk[196].real() = (r5 * cos(15 * M_PI / 32.0));
+- m_256apsk[196].imag() = (r5 * sin(15 * M_PI / 32.0));
+- m_256apsk[197].real() = (r5 * cos(13 * M_PI / 32.0));
+- m_256apsk[197].imag() = (r5 * sin(13 * M_PI / 32.0));
+- m_256apsk[198].real() = (r5 * cos(9 * M_PI / 32.0));
+- m_256apsk[198].imag() = (r5 * sin(9 * M_PI / 32.0));
+- m_256apsk[199].real() = (r5 * cos(11 * M_PI / 32.0));
+- m_256apsk[199].imag() = (r5 * sin(11 * M_PI / 32.0));
+- m_256apsk[200].real() = (r5 * cos(31 * M_PI / 32.0));
+- m_256apsk[200].imag() = (r5 * sin(31 * M_PI / 32.0));
+- m_256apsk[201].real() = (r5 * cos(29 * M_PI / 32.0));
+- m_256apsk[201].imag() = (r5 * sin(29 * M_PI / 32.0));
+- m_256apsk[202].real() = (r5 * cos(25 * M_PI / 32.0));
+- m_256apsk[202].imag() = (r5 * sin(25 * M_PI / 32.0));
+- m_256apsk[203].real() = (r5 * cos(27 * M_PI / 32.0));
+- m_256apsk[203].imag() = (r5 * sin(27 * M_PI / 32.0));
+- m_256apsk[204].real() = (r5 * cos(17 * M_PI / 32.0));
+- m_256apsk[204].imag() = (r5 * sin(17 * M_PI / 32.0));
+- m_256apsk[205].real() = (r5 * cos(19 * M_PI / 32.0));
+- m_256apsk[205].imag() = (r5 * sin(19 * M_PI / 32.0));
+- m_256apsk[206].real() = (r5 * cos(23 * M_PI / 32.0));
+- m_256apsk[206].imag() = (r5 * sin(23 * M_PI / 32.0));
+- m_256apsk[207].real() = (r5 * cos(21 * M_PI / 32.0));
+- m_256apsk[207].imag() = (r5 * sin(21 * M_PI / 32.0));
+- m_256apsk[208].real() = (r5 * cos(-1 * M_PI / 32.0));
+- m_256apsk[208].imag() = (r5 * sin(-1 * M_PI / 32.0));
+- m_256apsk[209].real() = (r5 * cos(-3 * M_PI / 32.0));
+- m_256apsk[209].imag() = (r5 * sin(-3 * M_PI / 32.0));
+- m_256apsk[210].real() = (r5 * cos(-7 * M_PI / 32.0));
+- m_256apsk[210].imag() = (r5 * sin(-7 * M_PI / 32.0));
+- m_256apsk[211].real() = (r5 * cos(-5 * M_PI / 32.0));
+- m_256apsk[211].imag() = (r5 * sin(-5 * M_PI / 32.0));
+- m_256apsk[212].real() = (r5 * cos(-15 * M_PI / 32.0));
+- m_256apsk[212].imag() = (r5 * sin(-15 * M_PI / 32.0));
+- m_256apsk[213].real() = (r5 * cos(-13 * M_PI / 32.0));
+- m_256apsk[213].imag() = (r5 * sin(-13 * M_PI / 32.0));
+- m_256apsk[214].real() = (r5 * cos(-9 * M_PI / 32.0));
+- m_256apsk[214].imag() = (r5 * sin(-9 * M_PI / 32.0));
+- m_256apsk[215].real() = (r5 * cos(-11 * M_PI / 32.0));
+- m_256apsk[215].imag() = (r5 * sin(-11 * M_PI / 32.0));
+- m_256apsk[216].real() = (r5 * cos(33 * M_PI / 32.0));
+- m_256apsk[216].imag() = (r5 * sin(33 * M_PI / 32.0));
+- m_256apsk[217].real() = (r5 * cos(35 * M_PI / 32.0));
+- m_256apsk[217].imag() = (r5 * sin(35 * M_PI / 32.0));
+- m_256apsk[218].real() = (r5 * cos(39 * M_PI / 32.0));
+- m_256apsk[218].imag() = (r5 * sin(39 * M_PI / 32.0));
+- m_256apsk[219].real() = (r5 * cos(37 * M_PI / 32.0));
+- m_256apsk[219].imag() = (r5 * sin(37 * M_PI / 32.0));
+- m_256apsk[220].real() = (r5 * cos(47 * M_PI / 32.0));
+- m_256apsk[220].imag() = (r5 * sin(47 * M_PI / 32.0));
+- m_256apsk[221].real() = (r5 * cos(45 * M_PI / 32.0));
+- m_256apsk[221].imag() = (r5 * sin(45 * M_PI / 32.0));
+- m_256apsk[222].real() = (r5 * cos(41 * M_PI / 32.0));
+- m_256apsk[222].imag() = (r5 * sin(41 * M_PI / 32.0));
+- m_256apsk[223].real() = (r5 * cos(43 * M_PI / 32.0));
+- m_256apsk[223].imag() = (r5 * sin(43 * M_PI / 32.0));
+- m_256apsk[224].real() = (r6 * cos(M_PI / 32.0));
+- m_256apsk[224].imag() = (r6 * sin(M_PI / 32.0));
+- m_256apsk[225].real() = (r6 * cos(3 * M_PI / 32.0));
+- m_256apsk[225].imag() = (r6 * sin(3 * M_PI / 32.0));
+- m_256apsk[226].real() = (r6 * cos(7 * M_PI / 32.0));
+- m_256apsk[226].imag() = (r6 * sin(7 * M_PI / 32.0));
+- m_256apsk[227].real() = (r6 * cos(5 * M_PI / 32.0));
+- m_256apsk[227].imag() = (r6 * sin(5 * M_PI / 32.0));
+- m_256apsk[228].real() = (r6 * cos(15 * M_PI / 32.0));
+- m_256apsk[228].imag() = (r6 * sin(15 * M_PI / 32.0));
+- m_256apsk[229].real() = (r6 * cos(13 * M_PI / 32.0));
+- m_256apsk[229].imag() = (r6 * sin(13 * M_PI / 32.0));
+- m_256apsk[230].real() = (r6 * cos(9 * M_PI / 32.0));
+- m_256apsk[230].imag() = (r6 * sin(9 * M_PI / 32.0));
+- m_256apsk[231].real() = (r6 * cos(11 * M_PI / 32.0));
+- m_256apsk[231].imag() = (r6 * sin(11 * M_PI / 32.0));
+- m_256apsk[232].real() = (r6 * cos(31 * M_PI / 32.0));
+- m_256apsk[232].imag() = (r6 * sin(31 * M_PI / 32.0));
+- m_256apsk[233].real() = (r6 * cos(29 * M_PI / 32.0));
+- m_256apsk[233].imag() = (r6 * sin(29 * M_PI / 32.0));
+- m_256apsk[234].real() = (r6 * cos(25 * M_PI / 32.0));
+- m_256apsk[234].imag() = (r6 * sin(25 * M_PI / 32.0));
+- m_256apsk[235].real() = (r6 * cos(27 * M_PI / 32.0));
+- m_256apsk[235].imag() = (r6 * sin(27 * M_PI / 32.0));
+- m_256apsk[236].real() = (r6 * cos(17 * M_PI / 32.0));
+- m_256apsk[236].imag() = (r6 * sin(17 * M_PI / 32.0));
+- m_256apsk[237].real() = (r6 * cos(19 * M_PI / 32.0));
+- m_256apsk[237].imag() = (r6 * sin(19 * M_PI / 32.0));
+- m_256apsk[238].real() = (r6 * cos(23 * M_PI / 32.0));
+- m_256apsk[238].imag() = (r6 * sin(23 * M_PI / 32.0));
+- m_256apsk[239].real() = (r6 * cos(21 * M_PI / 32.0));
+- m_256apsk[239].imag() = (r6 * sin(21 * M_PI / 32.0));
+- m_256apsk[240].real() = (r6 * cos(-1 * M_PI / 32.0));
+- m_256apsk[240].imag() = (r6 * sin(-1 * M_PI / 32.0));
+- m_256apsk[241].real() = (r6 * cos(-3 * M_PI / 32.0));
+- m_256apsk[241].imag() = (r6 * sin(-3 * M_PI / 32.0));
+- m_256apsk[242].real() = (r6 * cos(-7 * M_PI / 32.0));
+- m_256apsk[242].imag() = (r6 * sin(-7 * M_PI / 32.0));
+- m_256apsk[243].real() = (r6 * cos(-5 * M_PI / 32.0));
+- m_256apsk[243].imag() = (r6 * sin(-5 * M_PI / 32.0));
+- m_256apsk[244].real() = (r6 * cos(-15 * M_PI / 32.0));
+- m_256apsk[244].imag() = (r6 * sin(-15 * M_PI / 32.0));
+- m_256apsk[245].real() = (r6 * cos(-13 * M_PI / 32.0));
+- m_256apsk[245].imag() = (r6 * sin(-13 * M_PI / 32.0));
+- m_256apsk[246].real() = (r6 * cos(-9 * M_PI / 32.0));
+- m_256apsk[246].imag() = (r6 * sin(-9 * M_PI / 32.0));
+- m_256apsk[247].real() = (r6 * cos(-11 * M_PI / 32.0));
+- m_256apsk[247].imag() = (r6 * sin(-11 * M_PI / 32.0));
+- m_256apsk[248].real() = (r6 * cos(33 * M_PI / 32.0));
+- m_256apsk[248].imag() = (r6 * sin(33 * M_PI / 32.0));
+- m_256apsk[249].real() = (r6 * cos(35 * M_PI / 32.0));
+- m_256apsk[249].imag() = (r6 * sin(35 * M_PI / 32.0));
+- m_256apsk[250].real() = (r6 * cos(39 * M_PI / 32.0));
+- m_256apsk[250].imag() = (r6 * sin(39 * M_PI / 32.0));
+- m_256apsk[251].real() = (r6 * cos(37 * M_PI / 32.0));
+- m_256apsk[251].imag() = (r6 * sin(37 * M_PI / 32.0));
+- m_256apsk[252].real() = (r6 * cos(47 * M_PI / 32.0));
+- m_256apsk[252].imag() = (r6 * sin(47 * M_PI / 32.0));
+- m_256apsk[253].real() = (r6 * cos(45 * M_PI / 32.0));
+- m_256apsk[253].imag() = (r6 * sin(45 * M_PI / 32.0));
+- m_256apsk[254].real() = (r6 * cos(41 * M_PI / 32.0));
+- m_256apsk[254].imag() = (r6 * sin(41 * M_PI / 32.0));
+- m_256apsk[255].real() = (r6 * cos(43 * M_PI / 32.0));
+- m_256apsk[255].imag() = (r6 * sin(43 * M_PI / 32.0));
+- }
+- break;
+- default:
+- m_qpsk[0].real() = (r1 * cos(M_PI / 4.0));
+- m_qpsk[0].imag() = (r1 * sin(M_PI / 4.0));
+- m_qpsk[1].real() = (r1 * cos(7 * M_PI / 4.0));
+- m_qpsk[1].imag() = (r1 * sin(7 * M_PI / 4.0));
+- m_qpsk[2].real() = (r1 * cos(3 * M_PI / 4.0));
+- m_qpsk[2].imag() = (r1 * sin(3 * M_PI / 4.0));
+- m_qpsk[3].real() = (r1 * cos(5 * M_PI / 4.0));
+- m_qpsk[3].imag() = (r1 * sin(5 * M_PI / 4.0));
+- break;
+- }
+- signal_constellation = constellation;
+- set_output_multiple(2);
++ double r1, r2, r3, r4, r5, r6, r7, r8;
++ double m = 1.0;
++ r1 = m;
++ switch (constellation)
++        {
++        case gr::dvbs2::MOD_QPSK:
++         m_qpsk[0] = gr_complex((r1 * cos(1.0 * M_PI / 4.0)),
++                                 (r1 * sin(1.0 * M_PI / 4.0)));
++         m_qpsk[1] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         m_qpsk[2] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_qpsk[3] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_8PSK:
++         m_8psk[0] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_8psk[1] = gr_complex((r1 * cos(0.0)),
++                                 (r1 * sin(0.0)));
++         m_8psk[2] = gr_complex((r1 * cos(4 * M_PI / 4.0)),
++                                 (r1 * sin(4 * M_PI / 4.0)));
++         m_8psk[3] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         m_8psk[4] = gr_complex((r1 * cos(2 * M_PI / 4.0)),
++                                 (r1 * sin(2 * M_PI / 4.0)));
++         m_8psk[5] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         m_8psk[6] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_8psk[7] = gr_complex((r1 * cos(6 * M_PI / 4.0)),
++                                 (r1 * sin(6 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_8APSK:
++         r3 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C100_180:
++         r1 = r3 / 6.8;
++         r2 = r1 * 5.32;
++         break;
++         case gr::dvbs2::C104_180:
++         r1 = r3 / 8.0;
++         r2 = r1 * 6.39;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         break;
++         }
++         m_8psk[0] = gr_complex((r1 * cos(M_PI)),
++                                 (r1 * sin(M_PI)));
++         m_8psk[1] = gr_complex((r2 * cos(M_PI * 1.352)),
++                                 (r2 * sin(M_PI * 1.352)));
++         m_8psk[2] = gr_complex((r2 * cos(M_PI * -1.352)),
++                                 (r2 * sin(M_PI * -1.352)));
++         m_8psk[3] = gr_complex((r3 * cos(M_PI)),
++                                 (r3 * sin(M_PI)));
++         m_8psk[4] = gr_complex((r1 * cos(0.0)),
++                                 (r1 * sin(0.0)));
++         m_8psk[5] = gr_complex((r2 * cos(M_PI * -0.352)),
++                                 (r2 * sin(M_PI * -0.352)));
++         m_8psk[6] = gr_complex((r2 * cos(M_PI * 0.352)),
++                                 (r2 * sin(M_PI * 0.352)));
++         m_8psk[7] = gr_complex((r3 * cos(0.0)),
++                                 (r3 * sin(0.0)));
++         break;
++        case gr::dvbs2::MOD_16APSK:
++         r2 = m;
++         if (framesize == gr::dvbs2::FECFRAME_NORMAL)
++         {
++         switch(rate)
++                {
++                case gr::dvbs2::C2_3:
++                 r1 = r2 / 3.15;
++                 break;
++                case gr::dvbs2::C3_4:
++                 r1 = r2 / 2.85;
++                 break;
++                case gr::dvbs2::C4_5:
++                 r1 = r2 / 2.75;
++                 break;
++                case gr::dvbs2::C5_6:
++                 r1 = r2 / 2.70;
++                 break;
++                case gr::dvbs2::C8_9:
++                 r1 = r2 / 2.60;
++                 break;
++                case gr::dvbs2::C9_10:
++                 r1 = r2 / 2.57;
++                 break;
++                case gr::dvbs2::C26_45:
++                case gr::dvbs2::C3_5:
++                 r1 = r2 / 3.70;
++                 break;
++                case gr::dvbs2::C28_45:
++                 r1 = r2 / 3.50;
++                 break;
++                case gr::dvbs2::C23_36:
++                case gr::dvbs2::C25_36:
++                 r1 = r2 / 3.10;
++                 break;
++                case gr::dvbs2::C13_18:
++                 r1 = r2 / 2.85;
++                 break;
++                case gr::dvbs2::C140_180:
++                 r1 = r2 / 3.60;
++                 break;
++                case gr::dvbs2::C154_180:
++                 r1 = r2 / 3.20;
++                 break;
++                default:
++                 r1 = 0;
++                 break;
++                }
++         }
++         else
++         {
++         switch(rate)
++                {
++                case gr::dvbs2::C2_3:
++                 r1 = r2 / 3.15;
++                 break;
++                case gr::dvbs2::C3_4:
++                 r1 = r2 / 2.85;
++                 break;
++                case gr::dvbs2::C4_5:
++                 r1 = r2 / 2.75;
++                 break;
++                case gr::dvbs2::C5_6:
++                 r1 = r2 / 2.70;
++                 break;
++                case gr::dvbs2::C8_9:
++                 r1 = r2 / 2.60;
++                 break;
++                case gr::dvbs2::C7_15:
++                 r1 = r2 / 3.32;
++                 break;
++                case gr::dvbs2::C8_15:
++                 r1 = r2 / 3.50;
++                 break;
++                case gr::dvbs2::C26_45:
++                case gr::dvbs2::C3_5:
++                 r1 = r2 / 3.70;
++                 break;
++                case gr::dvbs2::C32_45:
++                 r1 = r2 / 2.85;
++                 break;
++                default:
++                 r1 = 0;
++                 break;
++                }
++         }
++         m_16apsk[0] = gr_complex((r2 * cos(M_PI / 4.0)),
++                                 (r2 * sin(M_PI / 4.0)));
++         m_16apsk[1] = gr_complex((r2 * cos(-M_PI / 4.0)),
++                                 (r2 * sin(-M_PI / 4.0)));
++         m_16apsk[2] = gr_complex((r2 * cos(3 * M_PI / 4.0)),
++                                 (r2 * sin(3 * M_PI / 4.0)));
++         m_16apsk[3] = gr_complex((r2 * cos(-3 * M_PI / 4.0)),
++                                 (r2 * sin(-3 * M_PI / 4.0)));
++         m_16apsk[4] = gr_complex((r2 * cos(M_PI / 12.0)),
++                                 (r2 * sin(M_PI / 12.0)));
++         m_16apsk[5] = gr_complex((r2 * cos(-M_PI / 12.0)),
++                                 (r2 * sin(-M_PI / 12.0)));
++         m_16apsk[6] = gr_complex((r2 * cos(11 * M_PI / 12.0)),
++                                 (r2 * sin(11 * M_PI / 12.0)));
++         m_16apsk[7] = gr_complex((r2 * cos(-11 * M_PI / 12.0)),
++                                 (r2 * sin(-11 * M_PI / 12.0)));
++         m_16apsk[8] = gr_complex((r2 * cos(5 * M_PI / 12.0)),
++                                 (r2 * sin(5 * M_PI / 12.0)));
++         m_16apsk[9] = gr_complex((r2 * cos(-5 * M_PI / 12.0)),
++                                 (r2 * sin(-5 * M_PI / 12.0)));
++         m_16apsk[10] = gr_complex((r2 * cos(7 * M_PI / 12.0)),
++                                 (r2 * sin(7 * M_PI / 12.0)));
++         m_16apsk[11] = gr_complex((r2 * cos(-7 * M_PI / 12.0)),
++                                 (r2 * sin(-7 * M_PI / 12.0)));
++         m_16apsk[12] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_16apsk[13] = gr_complex((r1 * cos(-M_PI / 4.0)),
++                                 (r1 * sin(-M_PI / 4.0)));
++         m_16apsk[14] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_16apsk[15] = gr_complex((r1 * cos(-3 * M_PI / 4.0)),
++                                 (r1 * sin(-3 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_8_8APSK:
++         if (rate == gr::dvbs2::C18_30)
++         {
++         m_16apsk[0] = gr_complex(0.4718,
++                                 0.2606);
++         m_16apsk[1] = gr_complex(0.2606,
++                                 0.4718);
++         m_16apsk[2] = gr_complex(-0.4718,
++                                 0.2606);
++         m_16apsk[3] = gr_complex(-0.2606,
++                                 0.4718);
++         m_16apsk[4] = gr_complex(0.4718,
++                                 -0.2606);
++         m_16apsk[5] = gr_complex(0.2606,
++                                 -0.4718);
++         m_16apsk[6] = gr_complex(-0.4718,
++                                 -0.2606);
++         m_16apsk[7] = gr_complex(-0.2606,
++                                 -0.4718);
++         m_16apsk[8] = gr_complex(1.2088,
++                                 0.4984);
++         m_16apsk[9] = gr_complex(0.4984,
++                                 1.2088);
++         m_16apsk[10] = gr_complex(-1.2088,
++                                        0.4984);
++         m_16apsk[11] = gr_complex(-0.4984,
++                                        1.2088);
++         m_16apsk[12] = gr_complex(1.2088,
++                                        -0.4984);
++         m_16apsk[13] = gr_complex(0.4984,
++                                        -1.2088);
++         m_16apsk[14] = gr_complex(-1.2088,
++                                        -0.4984);
++         m_16apsk[15] = gr_complex(-0.4984,
++                                        -1.2088);
++         for (int i = 0; i < 16; i++)
++                {
++                 m_16apsk[i] /= 1.2088;
++                }
++         }
++         else if (rate == gr::dvbs2::C20_30)
++         {
++         m_16apsk[0] = gr_complex(0.5061,
++                                 0.2474);
++         m_16apsk[1] = gr_complex(0.2474,
++                                 0.5061);
++         m_16apsk[2] = gr_complex(-0.5061,
++                                 0.2474);
++         m_16apsk[3] = gr_complex(-0.2474,
++                                 0.5061);
++         m_16apsk[4] = gr_complex(0.5061,
++                                 -0.2474);
++         m_16apsk[5] = gr_complex(0.2474,
++                                 -0.5061);
++         m_16apsk[6] = gr_complex(-0.5061,
++                                 -0.2474);
++         m_16apsk[7] = gr_complex(-0.2474,
++                                 -0.5061);
++         m_16apsk[8] = gr_complex(1.2007,
++                                 0.4909);
++         m_16apsk[9] = gr_complex(0.4909,
++                                 1.2007);
++         m_16apsk[10] = gr_complex(-1.2007,
++                                        0.4909);
++         m_16apsk[11] = gr_complex(-0.4909,
++                                        1.2007);
++         m_16apsk[12] = gr_complex(1.2007,
++                                        -0.4909);
++         m_16apsk[13] = gr_complex(0.4909,
++                                        -1.2007);
++         m_16apsk[14] = gr_complex(-1.2007,
++                                        -0.4909);
++         m_16apsk[15] = gr_complex(-0.4909,
++                                        -1.2007);
++         for (int i = 0; i < 16; i++)
++                {
++                 m_16apsk[i] /= 1.2007;
++                }
++         }
++         else
++         {
++         r2 = m;
++         switch(rate)
++                {
++                case gr::dvbs2::C90_180:
++                case gr::dvbs2::C96_180:
++                case gr::dvbs2::C100_180:
++                 r1 = r2 / 2.19;
++                 break;
++                default:
++                 r1 = 0;
++                 break;
++                }
++         m_16apsk[0] = gr_complex((r1 * cos(M_PI / 8.0)),
++                                 (r1 * sin(M_PI / 8.0)));
++         m_16apsk[1] = gr_complex((r1 * cos(3 * M_PI / 8.0)),
++                                 (r1 * sin(3 * M_PI / 8.0)));
++         m_16apsk[2] = gr_complex((r1 * cos(7 * M_PI / 8.0)),
++                                 (r1 * sin(7 * M_PI / 8.0)));
++         m_16apsk[3] = gr_complex((r1 * cos(5 * M_PI / 8.0)),
++                                 (r1 * sin(5 * M_PI / 8.0)));
++         m_16apsk[4] = gr_complex((r1 * cos(15 * M_PI / 8.0)),
++                                 (r1 * sin(15 * M_PI / 8.0)));
++         m_16apsk[5] = gr_complex((r1 * cos(13 * M_PI / 8.0)),
++                                 (r1 * sin(13 * M_PI / 8.0)));
++         m_16apsk[6] = gr_complex((r1 * cos(9 * M_PI / 8.0)),
++                                 (r1 * sin(9 * M_PI / 8.0)));
++         m_16apsk[7] = gr_complex((r1 * cos(11 * M_PI / 8.0)),
++                                 (r1 * sin(11 * M_PI / 8.0)));
++         m_16apsk[8] = gr_complex((r2 * cos(M_PI / 8.0)),
++                                 (r2 * sin(M_PI / 8.0)));
++         m_16apsk[9] = gr_complex((r2 * cos(3 * M_PI / 8.0)),
++                                 (r2 * sin(3 * M_PI / 8.0)));
++         m_16apsk[10] = gr_complex((r2 * cos(7 * M_PI / 8.0)),
++                                        (r2 * sin(7 * M_PI / 8.0)));
++         m_16apsk[11] = gr_complex((r2 * cos(5 * M_PI / 8.0)),
++                                        (r2 * sin(5 * M_PI / 8.0)));
++         m_16apsk[12] = gr_complex((r2 * cos(15 * M_PI / 8.0)),
++                                        (r2 * sin(15 * M_PI / 8.0)));
++         m_16apsk[13] = gr_complex((r2 * cos(13 * M_PI / 8.0)),
++                                        (r2 * sin(13 * M_PI / 8.0)));
++         m_16apsk[14] = gr_complex((r2 * cos(9 * M_PI / 8.0)),
++                                        (r2 * sin(9 * M_PI / 8.0)));
++         m_16apsk[15] = gr_complex((r2 * cos(11 * M_PI / 8.0)),
++                                        (r2 * sin(11 * M_PI / 8.0)));
++         }
++         break;
++        case gr::dvbs2::MOD_32APSK:
++         r3 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C3_4:
++         r1 = r3 / 5.27;
++         r2 = r1 * 2.84;
++         break;
++         case gr::dvbs2::C4_5:
++         r1 = r3 / 4.87;
++         r2 = r1 * 2.72;
++         break;
++         case gr::dvbs2::C5_6:
++         r1 = r3 / 4.64;
++         r2 = r1 * 2.64;
++         break;
++         case gr::dvbs2::C8_9:
++         r1 = r3 / 4.33;
++         r2 = r1 * 2.54;
++         break;
++         case gr::dvbs2::C9_10:
++         r1 = r3 / 4.30;
++         r2 = r1 * 2.53;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         break;
++         }
++         m_32apsk[0] = gr_complex((r2 * cos(M_PI / 4.0)),
++                                 (r2 * sin(M_PI / 4.0)));
++         m_32apsk[1] = gr_complex((r2 * cos(5 * M_PI / 12.0)),
++                                 (r2 * sin(5 * M_PI / 12.0)));
++         m_32apsk[2] = gr_complex((r2 * cos(-M_PI / 4.0)),
++                                 (r2 * sin(-M_PI / 4.0)));
++         m_32apsk[3] = gr_complex((r2 * cos(-5 * M_PI / 12.0)),
++                                 (r2 * sin(-5 * M_PI / 12.0)));
++         m_32apsk[4] = gr_complex((r2 * cos(3 * M_PI / 4.0)),
++                                 (r2 * sin(3 * M_PI / 4.0)));
++         m_32apsk[5] = gr_complex((r2 * cos(7 * M_PI / 12.0)),
++                                 (r2 * sin(7 * M_PI / 12.0)));
++         m_32apsk[6] = gr_complex((r2 * cos(-3 * M_PI / 4.0)),
++                                 (r2 * sin(-3 * M_PI / 4.0)));
++         m_32apsk[7] = gr_complex((r2 * cos(-7 * M_PI / 12.0)),
++                                 (r2 * sin(-7 * M_PI / 12.0)));
++         m_32apsk[8] = gr_complex((r3 * cos(M_PI / 8.0)),
++                                 (r3 * sin(M_PI / 8.0)));
++         m_32apsk[9] = gr_complex((r3 * cos(3 * M_PI / 8.0)),
++                                 (r3 * sin(3 * M_PI / 8.0)));
++         m_32apsk[10] = gr_complex((r3 * cos(-M_PI / 4.0)),
++                                 (r3 * sin(-M_PI / 4.0)));
++         m_32apsk[11] = gr_complex((r3 * cos(-M_PI / 2.0)),
++                                 (r3 * sin(-M_PI / 2.0)));
++         m_32apsk[12] = gr_complex((r3 * cos(3 * M_PI / 4.0)),
++                                 (r3 * sin(3 * M_PI / 4.0)));
++         m_32apsk[13] = gr_complex((r3 * cos(M_PI / 2.0)),
++                                 (r3 * sin(M_PI / 2.0)));
++         m_32apsk[14] = gr_complex((r3 * cos(-7 * M_PI / 8.0)),
++                                 (r3 * sin(-7 * M_PI / 8.0)));
++         m_32apsk[15] = gr_complex((r3 * cos(-5 * M_PI / 8.0)),
++                                 (r3 * sin(-5 * M_PI / 8.0)));
++         m_32apsk[16] = gr_complex((r2 * cos(M_PI / 12.0)),
++                                 (r2 * sin(M_PI / 12.0)));
++         m_32apsk[17] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_32apsk[18] = gr_complex((r2 * cos(-M_PI / 12.0)),
++                                 (r2 * sin(-M_PI / 12.0)));
++         m_32apsk[19] = gr_complex((r1 * cos(-M_PI / 4.0)),
++                                 (r1 * sin(-M_PI / 4.0)));
++         m_32apsk[20] = gr_complex((r2 * cos(11 * M_PI / 12.0)),
++                                 (r2 * sin(11 * M_PI / 12.0)));
++         m_32apsk[21] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_32apsk[22] = gr_complex((r2 * cos(-11 * M_PI / 12.0)),
++                                 (r2 * sin(-11 * M_PI / 12.0)));
++         m_32apsk[23] = gr_complex((r1 * cos(-3 * M_PI / 4.0)),
++                                 (r1 * sin(-3 * M_PI / 4.0)));
++         m_32apsk[24] = gr_complex((r3 * cos(0.0)),
++                                 (r3 * sin(0.0)));
++         m_32apsk[25] = gr_complex((r3 * cos(M_PI / 4.0)),
++                                 (r3 * sin(M_PI / 4.0)));
++         m_32apsk[26] = gr_complex((r3 * cos(-M_PI / 8.0)),
++                                 (r3 * sin(-M_PI / 8.0)));
++         m_32apsk[27] = gr_complex((r3 * cos(-3 * M_PI / 8.0)),
++                                 (r3 * sin(-3 * M_PI / 8.0)));
++         m_32apsk[28] = gr_complex((r3 * cos(7 * M_PI / 8.0)),
++                                 (r3 * sin(7 * M_PI / 8.0)));
++         m_32apsk[29] = gr_complex((r3 * cos(5 * M_PI / 8.0)),
++                                 (r3 * sin(5 * M_PI / 8.0)));
++         m_32apsk[30] = gr_complex((r3 * cos(M_PI)),
++                                 (r3 * sin(M_PI)));
++         m_32apsk[31] = gr_complex((r3 * cos(-3 * M_PI / 4.0)),
++                                 (r3 * sin(-3 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_4_12_16APSK:
++         r3 = m;
++         if (framesize == gr::dvbs2::FECFRAME_NORMAL)
++         {
++         switch(rate)
++                {
++                case gr::dvbs2::C2_3:
++                 r1 = r3 / 5.55;
++                 r2 = r1 * 2.85;
++                 break;
++                default:
++                 r1 = 0;
++                 r2 = 0;
++                 break;
++                }
++         }
++         else
++         {
++         switch(rate)
++                {
++                case gr::dvbs2::C2_3:
++                 r1 = r3 / 5.54;
++                 r2 = r1 * 2.84;
++                 break;
++                case gr::dvbs2::C32_45:
++                 r1 = r3 / 5.26;
++                 r2 = r1 * 2.84;
++                 break;
++                default:
++                 r1 = 0;
++                 r2 = 0;
++                 break;
++                }
++         }
++         m_32apsk[0] = gr_complex((r3 * cos(11 * M_PI / 16.0)),
++                                 (r3 * sin(11 * M_PI / 16.0)));
++         m_32apsk[1] = gr_complex((r3 * cos(9 * M_PI / 16.0)),
++                                 (r3 * sin(9 * M_PI / 16.0)));
++         m_32apsk[2] = gr_complex((r3 * cos(5 * M_PI / 16.0)),
++                                 (r3 * sin(5 * M_PI / 16.0)));
++         m_32apsk[3] = gr_complex((r3 * cos(7 * M_PI / 16.0)),
++                                 (r3 * sin(7 * M_PI / 16.0)));
++         m_32apsk[4] = gr_complex((r2 * cos(3 * M_PI / 4.0)),
++                                 (r2 * sin(3 * M_PI / 4.0)));
++         m_32apsk[5] = gr_complex((r2 * cos(7 * M_PI / 12.0)),
++                                 (r2 * sin(7 * M_PI / 12.0)));
++         m_32apsk[6] = gr_complex((r2 * cos(M_PI / 4.0)),
++                                 (r2 * sin(M_PI / 4.0)));
++         m_32apsk[7] = gr_complex((r2 * cos(5 * M_PI / 12.0)),
++                                 (r2 * sin(5 * M_PI / 12.0)));
++         m_32apsk[8] = gr_complex((r3 * cos(13 * M_PI / 16.0)),
++                                 (r3 * sin(13 * M_PI / 16.0)));
++         m_32apsk[9] = gr_complex((r3 * cos(15 * M_PI / 16.0)),
++                                 (r3 * sin(15 * M_PI / 16.0)));
++         m_32apsk[10] = gr_complex((r3 * cos(3 * M_PI / 16.0)),
++                                 (r3 * sin(3 * M_PI / 16.0)));
++         m_32apsk[11] = gr_complex((r3 * cos(M_PI / 16.0)),
++                                 (r3 * sin(M_PI / 16.0)));
++         m_32apsk[12] = gr_complex((r2 * cos(11 * M_PI / 12.0)),
++                                 (r2 * sin(11 * M_PI / 12.0)));
++         m_32apsk[13] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_32apsk[14] = gr_complex((r2 * cos(M_PI / 12.0)),
++                                 (r2 * sin(M_PI / 12.0)));
++         m_32apsk[15] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_32apsk[16] = gr_complex((r3 * cos(21 * M_PI / 16.0)),
++                                 (r3 * sin(21 * M_PI / 16.0)));
++         m_32apsk[17] = gr_complex((r3 * cos(23 * M_PI / 16.0)),
++                                 (r3 * sin(23 * M_PI / 16.0)));
++         m_32apsk[18] = gr_complex((r3 * cos(27 * M_PI / 16.0)),
++                                 (r3 * sin(27 * M_PI / 16.0)));
++         m_32apsk[19] = gr_complex((r3 * cos(25 * M_PI / 16.0)),
++                                 (r3 * sin(25 * M_PI / 16.0)));
++         m_32apsk[20] = gr_complex((r2 * cos(5 * M_PI / 4.0)),
++                                 (r2 * sin(5 * M_PI / 4.0)));
++         m_32apsk[21] = gr_complex((r2 * cos(17 * M_PI / 12.0)),
++                                 (r2 * sin(17 * M_PI / 12.0)));
++         m_32apsk[22] = gr_complex((r2 * cos(7 * M_PI / 4.0)),
++                                 (r2 * sin(7 * M_PI / 4.0)));
++         m_32apsk[23] = gr_complex((r2 * cos(19 * M_PI / 12.0)),
++                                 (r2 * sin(19 * M_PI / 12.0)));
++         m_32apsk[24] = gr_complex((r3 * cos(19 * M_PI / 16.0)),
++                                 (r3 * sin(19 * M_PI / 16.0)));
++         m_32apsk[25] = gr_complex((r3 * cos(17 * M_PI / 16.0)),
++                                 (r3 * sin(17 * M_PI / 16.0)));
++         m_32apsk[26] = gr_complex((r3 * cos(29 * M_PI / 16.0)),
++                                 (r3 * sin(29 * M_PI / 16.0)));
++         m_32apsk[27] = gr_complex((r3 * cos(31 * M_PI / 16.0)),
++                                 (r3 * sin(31 * M_PI / 16.0)));
++         m_32apsk[28] = gr_complex((r2 * cos(13 * M_PI / 12.0)),
++                                 (r2 * sin(13 * M_PI / 12.0)));
++         m_32apsk[29] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         m_32apsk[30] = gr_complex((r2 * cos(23 * M_PI / 12.0)),
++                                 (r2 * sin(23 * M_PI / 12.0)));
++         m_32apsk[31] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_4_8_4_16APSK:
++         r4 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C128_180:
++         r1 = r4 / 5.6;
++         r3 = r1 * 2.99;
++         r2 = r1 * 2.6;
++         break;
++         case gr::dvbs2::C132_180:
++         r1 = r4 / 5.6;
++         r3 = r1 * 2.86;
++         r2 = r1 * 2.6;
++         break;
++         case gr::dvbs2::C140_180:
++         r1 = r4 / 5.6;
++         r3 = r1 * 3.08;
++         r2 = r1 * 2.6;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         r3 = 0;
++         break;
++         }
++         m_32apsk[0] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_32apsk[1] = gr_complex((r4 * cos(7 * M_PI / 16.0)),
++                                 (r4 * sin(7 * M_PI / 16.0)));
++         m_32apsk[2] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         m_32apsk[3] = gr_complex((r4 * cos(25 * M_PI / 16.0)),
++                                 (r4 * sin(25 * M_PI / 16.0)));
++         m_32apsk[4] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_32apsk[5] = gr_complex((r4 * cos(9 * M_PI / 16.0)),
++                                 (r4 * sin(9 * M_PI / 16.0)));
++         m_32apsk[6] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         m_32apsk[7] = gr_complex((r4 * cos(23 * M_PI / 16.0)),
++                                 (r4 * sin(23 * M_PI / 16.0)));
++         m_32apsk[8] = gr_complex((r2 * cos(M_PI / 12.0)),
++                                 (r2 * sin(M_PI / 12.0)));
++         m_32apsk[9] = gr_complex((r4 * cos(M_PI / 16.0)),
++                                 (r4 * sin(M_PI / 16.0)));
++         m_32apsk[10] = gr_complex((r2 * cos(23 * M_PI / 12.0)),
++                                 (r2 * sin(23 * M_PI / 12.0)));
++         m_32apsk[11] = gr_complex((r4 * cos(31 * M_PI / 16.0)),
++                                 (r4 * sin(31 * M_PI / 16.0)));
++         m_32apsk[12] = gr_complex((r2 * cos(11 * M_PI / 12.0)),
++                                 (r2 * sin(11 * M_PI / 12.0)));
++         m_32apsk[13] = gr_complex((r4 * cos(15 * M_PI / 16.0)),
++                                 (r4 * sin(15 * M_PI / 16.0)));
++         m_32apsk[14] = gr_complex((r2 * cos(13 * M_PI / 12.0)),
++                                 (r2 * sin(13 * M_PI / 12.0)));
++         m_32apsk[15] = gr_complex((r4 * cos(17 * M_PI / 16.0)),
++                                 (r4 * sin(17 * M_PI / 16.0)));
++         m_32apsk[16] = gr_complex((r2 * cos(5 * M_PI / 12.0)),
++                                 (r2 * sin(5 * M_PI / 12.0)));
++         m_32apsk[17] = gr_complex((r4 * cos(5 * M_PI / 16.0)),
++                                 (r4 * sin(5 * M_PI / 16.0)));
++         m_32apsk[18] = gr_complex((r2 * cos(19 * M_PI / 12.0)),
++                                 (r2 * sin(19 * M_PI / 12.0)));
++         m_32apsk[19] = gr_complex((r4 * cos(27 * M_PI / 16.0)),
++                                 (r4 * sin(27 * M_PI / 16.0)));
++         m_32apsk[20] = gr_complex((r2 * cos(7 * M_PI / 12.0)),
++                                 (r2 * sin(7 * M_PI / 12.0)));
++         m_32apsk[21] = gr_complex((r4 * cos(11 * M_PI / 16.0)),
++                                 (r4 * sin(11 * M_PI / 16.0)));
++         m_32apsk[22] = gr_complex((r2 * cos(17 * M_PI / 12.0)),
++                                 (r2 * sin(17 * M_PI / 12.0)));
++         m_32apsk[23] = gr_complex((r4 * cos(21 * M_PI / 16.0)),
++                                 (r4 * sin(21 * M_PI / 16.0)));
++         m_32apsk[24] = gr_complex((r3 * cos(M_PI / 4.0)),
++                                 (r3 * sin(M_PI / 4.0)));
++         m_32apsk[25] = gr_complex((r4 * cos(3 * M_PI / 16.0)),
++                                 (r4 * sin(3 * M_PI / 16.0)));
++         m_32apsk[26] = gr_complex((r3 * cos(7 * M_PI / 4.0)),
++                                 (r3 * sin(7 * M_PI / 4.0)));
++         m_32apsk[27] = gr_complex((r4 * cos(29 * M_PI / 16.0)),
++                                 (r4 * sin(29 * M_PI / 16.0)));
++         m_32apsk[28] = gr_complex((r3 * cos(3 * M_PI / 4.0)),
++                                 (r3 * sin(3 * M_PI / 4.0)));
++         m_32apsk[29] = gr_complex((r4 * cos(13 * M_PI / 16.0)),
++                                 (r4 * sin(13 * M_PI / 16.0)));
++         m_32apsk[30] = gr_complex((r3 * cos(5 * M_PI / 4.0)),
++                                 (r3 * sin(5 * M_PI / 4.0)));
++         m_32apsk[31] = gr_complex((r4 * cos(19 * M_PI / 16.0)),
++                                 (r4 * sin(19 * M_PI / 16.0)));
++         break;
++        case gr::dvbs2::MOD_64APSK:
++         r4 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C128_180:
++         r1 = r4 / 3.95;
++         r3 = r1 * 2.72;
++         r2 = r1 * 1.88;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         r3 = 0;
++         break;
++         }
++         m_64apsk[0] = gr_complex((r1 * cos(M_PI / 16.0)),
++                                 (r1 * sin(M_PI / 16.0)));
++         m_64apsk[1] = gr_complex((r1 * cos(3 * M_PI / 16.0)),
++                                 (r1 * sin(3 * M_PI / 16.0)));
++         m_64apsk[2] = gr_complex((r1 * cos(7 * M_PI / 16.0)),
++                                 (r1 * sin(7 * M_PI / 16.0)));
++         m_64apsk[3] = gr_complex((r1 * cos(5 * M_PI / 16.0)),
++                                 (r1 * sin(5 * M_PI / 16.0)));
++         m_64apsk[4] = gr_complex((r1 * cos(31 * M_PI / 16.0)),
++                                 (r1 * sin(31 * M_PI / 16.0)));
++         m_64apsk[5] = gr_complex((r1 * cos(29 * M_PI / 16.0)),
++                                 (r1 * sin(29 * M_PI / 16.0)));
++         m_64apsk[6] = gr_complex((r1 * cos(25 * M_PI / 16.0)),
++                                 (r1 * sin(25 * M_PI / 16.0)));
++         m_64apsk[7] = gr_complex((r1 * cos(27 * M_PI / 16.0)),
++                                 (r1 * sin(27 * M_PI / 16.0)));
++         m_64apsk[8] = gr_complex((r1 * cos(15 * M_PI / 16.0)),
++                                 (r1 * sin(15 * M_PI / 16.0)));
++         m_64apsk[9] = gr_complex((r1 * cos(13 * M_PI / 16.0)),
++                                 (r1 * sin(13 * M_PI / 16.0)));
++         m_64apsk[10] = gr_complex((r1 * cos(9 * M_PI / 16.0)),
++                                 (r1 * sin(9 * M_PI / 16.0)));
++         m_64apsk[11] = gr_complex((r1 * cos(11 * M_PI / 16.0)),
++                                 (r1 * sin(11 * M_PI / 16.0)));
++         m_64apsk[12] = gr_complex((r1 * cos(17 * M_PI / 16.0)),
++                                 (r1 * sin(17 * M_PI / 16.0)));
++         m_64apsk[13] = gr_complex((r1 * cos(19 * M_PI / 16.0)),
++                                 (r1 * sin(19 * M_PI / 16.0)));
++         m_64apsk[14] = gr_complex((r1 * cos(23 * M_PI / 16.0)),
++                                 (r1 * sin(23 * M_PI / 16.0)));
++         m_64apsk[15] = gr_complex((r1 * cos(21 * M_PI / 16.0)),
++                                 (r1 * sin(21 * M_PI / 16.0)));
++         m_64apsk[16] = gr_complex((r2 * cos(M_PI / 16.0)),
++                                 (r2 * sin(M_PI / 16.0)));
++         m_64apsk[17] = gr_complex((r2 * cos(3 * M_PI / 16.0)),
++                                 (r2 * sin(3 * M_PI / 16.0)));
++         m_64apsk[18] = gr_complex((r2 * cos(7 * M_PI / 16.0)),
++                                 (r2 * sin(7 * M_PI / 16.0)));
++         m_64apsk[19] = gr_complex((r2 * cos(5 * M_PI / 16.0)),
++                                 (r2 * sin(5 * M_PI / 16.0)));
++         m_64apsk[20] = gr_complex((r2 * cos(31 * M_PI / 16.0)),
++                                 (r2 * sin(31* M_PI / 16.0)));
++         m_64apsk[21] = gr_complex((r2 * cos(29 * M_PI / 16.0)),
++                                 (r2 * sin(29 * M_PI / 16.0)));
++         m_64apsk[22] = gr_complex((r2 * cos(25 * M_PI / 16.0)),
++                                 (r2 * sin(25 * M_PI / 16.0)));
++         m_64apsk[23] = gr_complex((r2 * cos(27 * M_PI / 16.0)),
++                                 (r2 * sin(27 * M_PI / 16.0)));
++         m_64apsk[24] = gr_complex((r2 * cos(15 * M_PI / 16.0)),
++                                 (r2 * sin(15 * M_PI / 16.0)));
++         m_64apsk[25] = gr_complex((r2 * cos(13 * M_PI / 16.0)),
++                                 (r2 * sin(13 * M_PI / 16.0)));
++         m_64apsk[26] = gr_complex((r2 * cos(9 * M_PI / 16.0)),
++                                 (r2 * sin(9 * M_PI / 16.0)));
++         m_64apsk[27] = gr_complex((r2 * cos(11 * M_PI / 16.0)),
++                                 (r2 * sin(11 * M_PI / 16.0)));
++         m_64apsk[28] = gr_complex((r2 * cos(17 * M_PI / 16.0)),
++                                 (r2 * sin(17 * M_PI / 16.0)));
++         m_64apsk[29] = gr_complex((r2 * cos(19 * M_PI / 16.0)),
++                                 (r2 * sin(19 * M_PI / 16.0)));
++         m_64apsk[30] = gr_complex((r2 * cos(23 * M_PI / 16.0)),
++                                 (r2 * sin(23 * M_PI / 16.0)));
++         m_64apsk[31] = gr_complex((r2 * cos(21 * M_PI / 16.0)),
++                                 (r2 * sin(21 * M_PI / 16.0)));
++         m_64apsk[32] = gr_complex((r4 * cos(M_PI / 16.0)),
++                                 (r4 * sin(M_PI / 16.0)));
++         m_64apsk[33] = gr_complex((r4 * cos(3 * M_PI / 16.0)),
++                                 (r4 * sin(3 * M_PI / 16.0)));
++         m_64apsk[34] = gr_complex((r4 * cos(7 * M_PI / 16.0)),
++                                 (r4 * sin(7 * M_PI / 16.0)));
++         m_64apsk[35] = gr_complex((r4 * cos(5 * M_PI / 16.0)),
++                                 (r4 * sin(5 * M_PI / 16.0)));
++         m_64apsk[36] = gr_complex((r4 * cos(31 * M_PI / 16.0)),
++                                 (r4 * sin(31 * M_PI / 16.0)));
++         m_64apsk[37] = gr_complex((r4 * cos(29 * M_PI / 16.0)),
++                                 (r4 * sin(29 * M_PI / 16.0)));
++         m_64apsk[38] = gr_complex((r4 * cos(25 * M_PI / 16.0)),
++                                 (r4 * sin(25 * M_PI / 16.0)));
++         m_64apsk[39] = gr_complex((r4 * cos(27 * M_PI / 16.0)),
++                                 (r4 * sin(27 * M_PI / 16.0)));
++         m_64apsk[40] = gr_complex((r4 * cos(15 * M_PI / 16.0)),
++                                 (r4 * sin(15 * M_PI / 16.0)));
++         m_64apsk[41] = gr_complex((r4 * cos(13 * M_PI / 16.0)),
++                                 (r4 * sin(13 * M_PI / 16.0)));
++         m_64apsk[42] = gr_complex((r4 * cos(9 * M_PI / 16.0)),
++                                 (r4 * sin(9 * M_PI / 16.0)));
++         m_64apsk[43] = gr_complex((r4 * cos(11 * M_PI / 16.0)),
++                                 (r4 * sin(11 * M_PI / 16.0)));
++         m_64apsk[44] = gr_complex((r4 * cos(17 * M_PI / 16.0)),
++                                 (r4 * sin(17 * M_PI / 16.0)));
++         m_64apsk[45] = gr_complex((r4 * cos(19 * M_PI / 16.0)),
++                                 (r4 * sin(19 * M_PI / 16.0)));
++         m_64apsk[46] = gr_complex((r4 * cos(23 * M_PI / 16.0)),
++                                 (r4 * sin(23 * M_PI / 16.0)));
++         m_64apsk[47] = gr_complex((r4 * cos(21 * M_PI / 16.0)),
++                                 (r4 * sin(21 * M_PI / 16.0)));
++         m_64apsk[48] = gr_complex((r3 * cos(M_PI / 16.0)),
++                                 (r3 * sin(M_PI / 16.0)));
++         m_64apsk[49] = gr_complex((r3 * cos(3 * M_PI / 16.0)),
++                                 (r3 * sin(3 * M_PI / 16.0)));
++         m_64apsk[50] = gr_complex((r3 * cos(7 * M_PI / 16.0)),
++                                 (r3 * sin(7 * M_PI / 16.0)));
++         m_64apsk[51] = gr_complex((r3 * cos(5 * M_PI / 16.0)),
++                                 (r3 * sin(5 * M_PI / 16.0)));
++         m_64apsk[52] = gr_complex((r3 * cos(31 * M_PI / 16.0)),
++                                 (r3 * sin(31 * M_PI / 16.0)));
++         m_64apsk[53] = gr_complex((r3 * cos(29 * M_PI / 16.0)),
++                                 (r3 * sin(29 * M_PI / 16.0)));
++         m_64apsk[54] = gr_complex((r3 * cos(25 * M_PI / 16.0)),
++                                 (r3 * sin(25 * M_PI / 16.0)));
++         m_64apsk[55] = gr_complex((r3 * cos(27 * M_PI / 16.0)),
++                                 (r3 * sin(27 * M_PI / 16.0)));
++         m_64apsk[56] = gr_complex((r3 * cos(15 * M_PI / 16.0)),
++                                 (r3 * sin(15 * M_PI / 16.0)));
++         m_64apsk[57] = gr_complex((r3 * cos(13 * M_PI / 16.0)),
++                                 (r3 * sin(13 * M_PI / 16.0)));
++         m_64apsk[58] = gr_complex((r3 * cos(9 * M_PI / 16.0)),
++                                 (r3 * sin(9 * M_PI / 16.0)));
++         m_64apsk[59] = gr_complex((r3 * cos(11 * M_PI / 16.0)),
++                                 (r3 * sin(11 * M_PI / 16.0)));
++         m_64apsk[60] = gr_complex((r3 * cos(17 * M_PI / 16.0)),
++                                 (r3 * sin(17 * M_PI / 16.0)));
++         m_64apsk[61] = gr_complex((r3 * cos(19 * M_PI / 16.0)),
++                                 (r3 * sin(19 * M_PI / 16.0)));
++         m_64apsk[62] = gr_complex((r3 * cos(23 * M_PI / 16.0)),
++                                 (r3 * sin(23 * M_PI / 16.0)));
++         m_64apsk[63] = gr_complex((r3 * cos(21 * M_PI / 16.0)),
++                                 (r3 * sin(21 * M_PI / 16.0)));
++         break;
++        case gr::dvbs2::MOD_8_16_20_20APSK:
++         r4 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C7_9:
++         case gr::dvbs2::C4_5:
++         r1 = r4 / 5.2;
++         r3 = r1 * 3.6;
++         r2 = r1 * 2.2;
++         break;
++         case gr::dvbs2::C5_6:
++         r1 = r4 / 5.0;
++         r3 = r1 * 3.5;
++         r2 = r1 * 2.2;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         r3 = 0;
++         break;
++         }
++         m_64apsk[0] = gr_complex((r2 * cos(25 * M_PI / 16.0)),
++                                 (r2 * sin(25 * M_PI / 16.0)));
++         m_64apsk[1] = gr_complex((r4 * cos(7 * M_PI / 4.0)),
++                                 (r4 * sin(7 * M_PI / 4.0)));
++         m_64apsk[2] = gr_complex((r2 * cos(27 * M_PI / 16.0)),
++                                 (r2 * sin(27 * M_PI / 16.0)));
++         m_64apsk[3] = gr_complex((r3 * cos(7 * M_PI / 4.0)),
++                                 (r3 * sin(7 * M_PI / 4.0)));
++         m_64apsk[4] = gr_complex((r4 * cos(31 * M_PI / 20.0)),
++                                 (r4 * sin(31 * M_PI / 20.0)));
++         m_64apsk[5] = gr_complex((r4 * cos(33 * M_PI / 20.0)),
++                                 (r4 * sin(33 * M_PI / 20.0)));
++         m_64apsk[6] = gr_complex((r3 * cos(31 * M_PI / 20.0)),
++                                 (r3 * sin(31 * M_PI / 20.0)));
++         m_64apsk[7] = gr_complex((r3 * cos(33 * M_PI / 20.0)),
++                                 (r3 * sin(33 * M_PI / 20.0)));
++         m_64apsk[8] = gr_complex((r2 * cos(23 * M_PI / 16.0)),
++                                 (r2 * sin(23 * M_PI / 16.0)));
++         m_64apsk[9] = gr_complex((r4 * cos(5 * M_PI / 4.0)),
++                                 (r4 * sin(5 * M_PI / 4.0)));
++         m_64apsk[10] = gr_complex((r2 * cos(21 * M_PI / 16.0)),
++                                 (r2 * sin(21 * M_PI / 16.0)));
++         m_64apsk[11] = gr_complex((r3 * cos(5 * M_PI / 4.0)),
++                                 (r3 * sin(5 * M_PI / 4.0)));
++         m_64apsk[12] = gr_complex((r4 * cos(29 * M_PI / 20.0)),
++                                 (r4 * sin(29 * M_PI / 20.0)));
++         m_64apsk[13] = gr_complex((r4 * cos(27 * M_PI / 20.0)),
++                                 (r4 * sin(27 * M_PI / 20.0)));
++         m_64apsk[14] = gr_complex((r3 * cos(29 * M_PI / 20.0)),
++                                 (r3 * sin(29 * M_PI / 20.0)));
++         m_64apsk[15] = gr_complex((r3 * cos(27 * M_PI / 20.0)),
++                                 (r3 * sin(27 * M_PI / 20.0)));
++         m_64apsk[16] = gr_complex((r1 * cos(13 * M_PI / 8.0)),
++                                 (r1 * sin(13 * M_PI / 8.0)));
++         m_64apsk[17] = gr_complex((r4 * cos(37 * M_PI / 20.0)),
++                                 (r4 * sin(37 * M_PI / 20.0)));
++         m_64apsk[18] = gr_complex((r2 * cos(29 * M_PI / 16.0)),
++                                 (r2 * sin(29 * M_PI / 16.0)));
++         m_64apsk[19] = gr_complex((r3 * cos(37 * M_PI / 20.0)),
++                                 (r3 * sin(37 * M_PI / 20.0)));
++         m_64apsk[20] = gr_complex((r1 * cos(15 * M_PI / 8.0)),
++                                 (r1 * sin(15 * M_PI / 8.0)));
++         m_64apsk[21] = gr_complex((r4 * cos(39 * M_PI / 20.0)),
++                                 (r4 * sin(39 * M_PI / 20.0)));
++         m_64apsk[22] = gr_complex((r2 * cos(31 * M_PI / 16.0)),
++                                 (r2 * sin(31 * M_PI / 16.0)));
++         m_64apsk[23] = gr_complex((r3 * cos(39 * M_PI / 20.0)),
++                                 (r3 * sin(39 * M_PI / 20.0)));
++         m_64apsk[24] = gr_complex((r1 * cos(11 * M_PI / 8.0)),
++                                 (r1 * sin(11 * M_PI / 8.0)));
++         m_64apsk[25] = gr_complex((r4 * cos(23 * M_PI / 20.0)),
++                                 (r4 * sin(23 * M_PI / 20.0)));
++         m_64apsk[26] = gr_complex((r2 * cos(19 * M_PI / 16.0)),
++                                 (r2 * sin(19 * M_PI / 16.0)));
++         m_64apsk[27] = gr_complex((r3 * cos(23 * M_PI / 20.0)),
++                                 (r3 * sin(23 * M_PI / 20.0)));
++         m_64apsk[28] = gr_complex((r1 * cos(9 * M_PI / 8.0)),
++                                 (r1 * sin(9 * M_PI / 8.0)));
++         m_64apsk[29] = gr_complex((r4 * cos(21 * M_PI / 20.0)),
++                                 (r4 * sin(21 * M_PI / 20.0)));
++         m_64apsk[30] = gr_complex((r2 * cos(17 * M_PI / 16.0)),
++                                 (r2 * sin(17 * M_PI / 16.0)));
++         m_64apsk[31] = gr_complex((r3 * cos(21 * M_PI / 20.0)),
++                                 (r3 * sin(21 * M_PI / 20.0)));
++         m_64apsk[32] = gr_complex((r2 * cos(7 * M_PI / 16.0)),
++                                 (r2 * sin(7 * M_PI / 16.0)));
++         m_64apsk[33] = gr_complex((r4 * cos(M_PI / 4.0)),
++                                 (r4 * sin(M_PI / 4.0)));
++         m_64apsk[34] = gr_complex((r2 * cos(5 * M_PI / 16.0)),
++                                 (r2 * sin(5 * M_PI / 16.0)));
++         m_64apsk[35] = gr_complex((r3 * cos(M_PI / 4.0)),
++                                 (r3 * sin(M_PI / 4.0)));
++         m_64apsk[36] = gr_complex((r4 * cos(9 * M_PI / 20.0)),
++                                 (r4 * sin(9 * M_PI / 20.0)));
++         m_64apsk[37] = gr_complex((r4 * cos(7 * M_PI / 20.0)),
++                                 (r4 * sin(7 * M_PI / 20.0)));
++         m_64apsk[38] = gr_complex((r3 * cos(9 * M_PI / 20.0)),
++                                 (r3 * sin(9 * M_PI / 20.0)));
++         m_64apsk[39] = gr_complex((r3 * cos(7 * M_PI / 20.0)),
++                                 (r3 * sin(7 * M_PI / 20.0)));
++         m_64apsk[40] = gr_complex((r2 * cos(9 * M_PI / 16.0)),
++                                 (r2 * sin(9 * M_PI / 16.0)));
++         m_64apsk[41] = gr_complex((r4 * cos(3 * M_PI / 4.0)),
++                                 (r4 * sin(3 * M_PI / 4.0)));
++         m_64apsk[42] = gr_complex((r2 * cos(11 * M_PI / 16.0)),
++                                 (r2 * sin(11 * M_PI / 16.0)));
++         m_64apsk[43] = gr_complex((r3 * cos(3 * M_PI / 4.0)),
++                                 (r3 * sin(3 * M_PI / 4.0)));
++         m_64apsk[44] = gr_complex((r4 * cos(11 * M_PI / 20.0)),
++                                 (r4 * sin(11 * M_PI / 20.0)));
++         m_64apsk[45] = gr_complex((r4 * cos(13 * M_PI / 20.0)),
++                                 (r4 * sin(13 * M_PI / 20.0)));
++         m_64apsk[46] = gr_complex((r3 * cos(11 * M_PI / 20.0)),
++                                 (r3 * sin(11 * M_PI / 20.0)));
++         m_64apsk[47] = gr_complex((r3 * cos(13 * M_PI / 20.0)),
++                                 (r3 * sin(13 * M_PI / 20.0)));
++         m_64apsk[48] = gr_complex((r1 * cos(3 * M_PI / 8.0)),
++                                 (r1 * sin(3 * M_PI / 8.0)));
++         m_64apsk[49] = gr_complex((r4 * cos(3 * M_PI / 20.0)),
++                                 (r4 * sin(3 * M_PI / 20.0)));
++         m_64apsk[50] = gr_complex((r2 * cos(3 * M_PI / 16.0)),
++                                 (r2 * sin(3 * M_PI / 16.0)));
++         m_64apsk[51] = gr_complex((r3 * cos(3 * M_PI / 20.0)),
++                                 (r3 * sin(3 * M_PI / 20.0)));
++         m_64apsk[52] = gr_complex((r1 * cos(M_PI / 8.0)),
++                                 (r1 * sin(M_PI / 8.0)));
++         m_64apsk[53] = gr_complex((r4 * cos(M_PI / 20.0)),
++                                 (r4 * sin(M_PI / 20.0)));
++         m_64apsk[54] = gr_complex((r2 * cos(M_PI / 16.0)),
++                                 (r2 * sin(M_PI / 16.0)));
++         m_64apsk[55] = gr_complex((r3 * cos(M_PI / 20.0)),
++                                 (r3 * sin(M_PI / 20.0)));
++         m_64apsk[56] = gr_complex((r1 * cos(5 * M_PI / 8.0)),
++                                 (r1 * sin(5 * M_PI / 8.0)));
++         m_64apsk[57] = gr_complex((r4 * cos(17 * M_PI / 20.0)),
++                                 (r4 * sin(17 * M_PI / 20.0)));
++         m_64apsk[58] = gr_complex((r2 * cos(13 * M_PI / 16.0)),
++                                 (r2 * sin(13 * M_PI / 16.0)));
++         m_64apsk[59] = gr_complex((r3 * cos(17 * M_PI / 20.0)),
++                                 (r3 * sin(17 * M_PI / 20.0)));
++         m_64apsk[60] = gr_complex((r1 * cos(7 * M_PI / 8.0)),
++                                 (r1 * sin(7 * M_PI / 8.0)));
++         m_64apsk[61] = gr_complex((r4 * cos(19 * M_PI / 20.0)),
++                                 (r4 * sin(19 * M_PI / 20.0)));
++         m_64apsk[62] = gr_complex((r2 * cos(15 * M_PI / 16.0)),
++                                 (r2 * sin(15 * M_PI / 16.0)));
++         m_64apsk[63] = gr_complex((r3 * cos(19 * M_PI / 20.0)),
++                                 (r3 * sin(19 * M_PI / 20.0)));
++         break;
++        case gr::dvbs2::MOD_4_12_20_28APSK:
++         r4 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C132_180:
++         r1 = r4 / 7.0;
++         r3 = r1 * 4.3;
++         r2 = r1 * 2.4;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         r3 = 0;
++         break;
++         }
++         m_64apsk[0] = gr_complex((r4 * cos(M_PI / 4.0)),
++                                 (r4 * sin(M_PI / 4.0)));
++         m_64apsk[1] = gr_complex((r4 * cos(7 * M_PI / 4.0)),
++                                 (r4 * sin(7 * M_PI / 4.0)));
++         m_64apsk[2] = gr_complex((r4 * cos(3 * M_PI / 4.0)),
++                                 (r4 * sin(3 * M_PI / 4.0)));
++         m_64apsk[3] = gr_complex((r4 * cos(5 * M_PI / 4.0)),
++                                 (r4 * sin(5 * M_PI / 4.0)));
++         m_64apsk[4] = gr_complex((r4 * cos(13 * M_PI / 28.0)),
++                                 (r4 * sin(13 * M_PI / 28.0)));
++         m_64apsk[5] = gr_complex((r4 * cos(43 * M_PI / 28.0)),
++                                 (r4 * sin(43 * M_PI / 28.0)));
++         m_64apsk[6] = gr_complex((r4 * cos(15 * M_PI / 28.0)),
++                                 (r4 * sin(15 * M_PI / 28.0)));
++         m_64apsk[7] = gr_complex((r4 * cos(41 * M_PI / 28.0)),
++                                 (r4 * sin(41 * M_PI / 28.0)));
++         m_64apsk[8] = gr_complex((r4 * cos(M_PI / 28.0)),
++                                 (r4 * sin(M_PI / 28.0)));
++         m_64apsk[9] = gr_complex((r4 * cos(55 * M_PI / 28.0)),
++                                 (r4 * sin(55 * M_PI / 28.0)));
++         m_64apsk[10] = gr_complex((r4 * cos(27 * M_PI / 28.0)),
++                                 (r4 * sin(27 * M_PI / 28.0)));
++         m_64apsk[11] = gr_complex((r4 * cos(29 * M_PI / 28.0)),
++                                 (r4 * sin(29 * M_PI / 28.0)));
++         m_64apsk[12] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_64apsk[13] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         m_64apsk[14] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_64apsk[15] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         m_64apsk[16] = gr_complex((r4 * cos(9 * M_PI / 28.0)),
++                                 (r4 * sin(9 * M_PI / 28.0)));
++         m_64apsk[17] = gr_complex((r4 * cos(47 * M_PI / 28.0)),
++                                 (r4 * sin(47 * M_PI / 28.0)));
++         m_64apsk[18] = gr_complex((r4 * cos(19 * M_PI / 28.0)),
++                                 (r4 * sin(19 * M_PI / 28.0)));
++         m_64apsk[19] = gr_complex((r4 * cos(37 * M_PI / 28.0)),
++                                 (r4 * sin(37 * M_PI / 28.0)));
++         m_64apsk[20] = gr_complex((r4 * cos(11 * M_PI / 28.0)),
++                                 (r4 * sin(11 * M_PI / 28.0)));
++         m_64apsk[21] = gr_complex((r4 * cos(45 * M_PI / 28.0)),
++                                 (r4 * sin(45 * M_PI / 28.0)));
++         m_64apsk[22] = gr_complex((r4 * cos(17 * M_PI / 28.0)),
++                                 (r4 * sin(17 * M_PI / 28.0)));
++         m_64apsk[23] = gr_complex((r4 * cos(39 * M_PI / 28.0)),
++                                 (r4 * sin(39 * M_PI / 28.0)));
++         m_64apsk[24] = gr_complex((r3 * cos(M_PI / 20.0)),
++                                 (r3 * sin(M_PI / 20.0)));
++         m_64apsk[25] = gr_complex((r3 * cos(39 * M_PI / 20.0)),
++                                 (r3 * sin(39 * M_PI / 20.0)));
++         m_64apsk[26] = gr_complex((r3 * cos(19 * M_PI / 20.0)),
++                                 (r3 * sin(19 * M_PI / 20.0)));
++         m_64apsk[27] = gr_complex((r3 * cos(21 * M_PI / 20.0)),
++                                 (r3 * sin(21 * M_PI / 20.0)));
++         m_64apsk[28] = gr_complex((r2 * cos(M_PI / 12.0)),
++                                 (r2 * sin(M_PI / 12.0)));
++         m_64apsk[29] = gr_complex((r2 * cos(23 * M_PI / 12.0)),
++                                 (r2 * sin(23 * M_PI / 12.0)));
++         m_64apsk[30] = gr_complex((r2 * cos(11 * M_PI / 12.0)),
++                                 (r2 * sin(11 * M_PI / 12.0)));
++         m_64apsk[31] = gr_complex((r2 * cos(13 * M_PI / 12.0)),
++                                 (r2 * sin(13 * M_PI / 12.0)));
++         m_64apsk[32] = gr_complex((r4 * cos(5 * M_PI / 28.0)),
++                                 (r4 * sin(5 * M_PI / 28.0)));
++         m_64apsk[33] = gr_complex((r4 * cos(51 * M_PI / 28.0)),
++                                 (r4 * sin(51 * M_PI / 28.0)));
++         m_64apsk[34] = gr_complex((r4 * cos(23 * M_PI / 28.0)),
++                                 (r4 * sin(23 * M_PI / 28.0)));
++         m_64apsk[35] = gr_complex((r4 * cos(33 * M_PI / 28.0)),
++                                 (r4 * sin(33 * M_PI / 28.0)));
++         m_64apsk[36] = gr_complex((r3 * cos(9 * M_PI / 20.0)),
++                                 (r3 * sin(9 * M_PI / 20.0)));
++         m_64apsk[37] = gr_complex((r3 * cos(31 * M_PI / 20.0)),
++                                 (r3 * sin(31 * M_PI / 20.0)));
++         m_64apsk[38] = gr_complex((r3 * cos(11 * M_PI / 20.0)),
++                                 (r3 * sin(11 * M_PI / 20.0)));
++         m_64apsk[39] = gr_complex((r3 * cos(29 * M_PI / 20.0)),
++                                 (r3 * sin(29 * M_PI / 20.0)));
++         m_64apsk[40] = gr_complex((r4 * cos(3 * M_PI / 28.0)),
++                                 (r4 * sin(3 * M_PI / 28.0)));
++         m_64apsk[41] = gr_complex((r4 * cos(53 * M_PI / 28.0)),
++                                 (r4 * sin(53 * M_PI / 28.0)));
++         m_64apsk[42] = gr_complex((r4 * cos(25 * M_PI / 28.0)),
++                                 (r4 * sin(25 * M_PI / 28.0)));
++         m_64apsk[43] = gr_complex((r4 * cos(31 * M_PI / 28.0)),
++                                 (r4 * sin(31 * M_PI / 28.0)));
++         m_64apsk[44] = gr_complex((r2 * cos(5 * M_PI / 12.0)),
++                                 (r2 * sin(5 * M_PI / 12.0)));
++         m_64apsk[45] = gr_complex((r2 * cos(19 * M_PI / 12.0)),
++                                 (r2 * sin(19 * M_PI / 12.0)));
++         m_64apsk[46] = gr_complex((r2 * cos(7 * M_PI / 12.0)),
++                                 (r2 * sin(7 * M_PI / 12.0)));
++         m_64apsk[47] = gr_complex((r2 * cos(17 * M_PI / 12.0)),
++                                 (r2 * sin(17 * M_PI / 12.0)));
++         m_64apsk[48] = gr_complex((r3 * cos(M_PI / 4.0)),
++                                 (r3 * sin(M_PI / 4.0)));
++         m_64apsk[49] = gr_complex((r3 * cos(7 * M_PI / 4.0)),
++                                 (r3 * sin(7 * M_PI / 4.0)));
++         m_64apsk[50] = gr_complex((r3 * cos(3 * M_PI / 4.0)),
++                                 (r3 * sin(3 * M_PI / 4.0)));
++         m_64apsk[51] = gr_complex((r3 * cos(5 * M_PI / 4.0)),
++                                 (r3 * sin(5 * M_PI / 4.0)));
++         m_64apsk[52] = gr_complex((r3 * cos(7 * M_PI / 20.0)),
++                                 (r3 * sin(7 * M_PI / 20.0)));
++         m_64apsk[53] = gr_complex((r3 * cos(33 * M_PI / 20.0)),
++                                 (r3 * sin(33 * M_PI / 20.0)));
++         m_64apsk[54] = gr_complex((r3 * cos(13 * M_PI / 20.0)),
++                                 (r3 * sin(13 * M_PI / 20.0)));
++         m_64apsk[55] = gr_complex((r3 * cos(27 * M_PI / 20.0)),
++                                 (r3 * sin(27 * M_PI / 20.0)));
++         m_64apsk[56] = gr_complex((r3 * cos(3 * M_PI / 20.0)),
++                                 (r3 * sin(3 * M_PI / 20.0)));
++         m_64apsk[57] = gr_complex((r3 * cos(37 * M_PI / 20.0)),
++                                 (r3 * sin(37 * M_PI / 20.0)));
++         m_64apsk[58] = gr_complex((r3 * cos(17 * M_PI / 20.0)),
++                                 (r3 * sin(17 * M_PI / 20.0)));
++         m_64apsk[59] = gr_complex((r3 * cos(23 * M_PI / 20.0)),
++                                 (r3 * sin(23 * M_PI / 20.0)));
++         m_64apsk[60] = gr_complex((r2 * cos(M_PI / 4.0)),
++                                 (r2 * sin(M_PI / 4.0)));
++         m_64apsk[61] = gr_complex((r2 * cos(7 * M_PI / 4.0)),
++                                 (r2 * sin(7 * M_PI / 4.0)));
++         m_64apsk[62] = gr_complex((r2 * cos(3 * M_PI / 4.0)),
++                                 (r2 * sin(3 * M_PI / 4.0)));
++         m_64apsk[63] = gr_complex((r2 * cos(5 * M_PI / 4.0)),
++                                 (r2 * sin(5 * M_PI / 4.0)));
++         break;
++        case gr::dvbs2::MOD_128APSK:
++         r6 = m;
++         switch(rate)
++         {
++         case gr::dvbs2::C135_180:
++         r1 = r6 / 3.819;
++         r5 = r1 * 2.75;
++         r4 = r1 * 2.681;
++         r3 = r1 * 2.118;
++         r2 = r1 * 1.715;
++         break;
++         case gr::dvbs2::C140_180:
++         r1 = r6 / 3.733;
++         r5 = r1 * 2.75;
++         r4 = r1 * 2.681;
++         r3 = r1 * 2.118;
++         r2 = r1 * 1.715;
++         break;
++         default:
++         r1 = 0;
++         r2 = 0;
++         r3 = 0;
++         r4 = 0;
++         r5 = 0;
++         break;
++         }
++         m_128apsk[0] = gr_complex((r1 * cos(83 * M_PI / 1260.0)),
++                                 (r1 * sin(83 * M_PI / 1260.0)));
++         m_128apsk[1] = gr_complex((r6 * cos(11 * M_PI / 105.0)),
++                                 (r6 * sin(11 * M_PI / 105.0)));
++         m_128apsk[2] = gr_complex((r6 * cos(37 * M_PI / 1680.0)),
++                                 (r6 * sin(37 * M_PI / 1680.0)));
++         m_128apsk[3] = gr_complex((r6 * cos(11 * M_PI / 168.0)),
++                                 (r6 * sin(11 * M_PI / 168.0)));
++         m_128apsk[4] = gr_complex((r2 * cos(121 * M_PI / 2520.0)),
++                                 (r2 * sin(121 * M_PI / 2520.0)));
++         m_128apsk[5] = gr_complex((r3 * cos(23 * M_PI / 280.0)),
++                                 (r3 * sin(23 * M_PI / 280.0)));
++         m_128apsk[6] = gr_complex((r5 * cos(19 * M_PI / 720.0)),
++                                 (r5 * sin(19 * M_PI / 720.0)));
++         m_128apsk[7] = gr_complex((r4 * cos(61 * M_PI / 720.0)),
++                                 (r4 * sin(61 * M_PI / 720.0)));
++         m_128apsk[8] = gr_complex((r1 * cos(103 * M_PI / 560.0)),
++                                 (r1 * sin(103 * M_PI / 560.0)));
++         m_128apsk[9] = gr_complex((r6 * cos(61 * M_PI / 420.0)),
++                                 (r6 * sin(61 * M_PI / 420.0)));
++         m_128apsk[10] = gr_complex((r6 * cos(383 * M_PI / 1680.0)),
++                                 (r6 * sin(383 * M_PI / 1680.0)));
++         m_128apsk[11] = gr_complex((r6 * cos(929 * M_PI / 5040.0)),
++                                 (r6 * sin(929 * M_PI / 5040.0)));
++         m_128apsk[12] = gr_complex((r2 * cos(113 * M_PI / 560.0)),
++                                 (r2 * sin(113 * M_PI / 560.0)));
++         m_128apsk[13] = gr_complex((r3 * cos(169 * M_PI / 1008.0)),
++                                 (r3 * sin(169 * M_PI / 1008.0)));
++         m_128apsk[14] = gr_complex((r5 * cos(563 * M_PI / 2520.0)),
++                                 (r5 * sin(563 * M_PI / 2520.0)));
++         m_128apsk[15] = gr_complex((r4 * cos(139 * M_PI / 840.0)),
++                                 (r4 * sin(139 * M_PI / 840.0)));
++         m_128apsk[16] = gr_complex((r1 * cos(243 * M_PI / 560.0)),
++                                 (r1 * sin(243 * M_PI / 560.0)));
++         m_128apsk[17] = gr_complex((r6 * cos(1993 * M_PI / 5040.0)),
++                                 (r6 * sin(1993 * M_PI / 5040.0)));
++         m_128apsk[18] = gr_complex((r6 * cos(43 * M_PI / 90.0)),
++                                 (r6 * sin(43 * M_PI / 90.0)));
++         m_128apsk[19] = gr_complex((r6 * cos(73 * M_PI / 168.0)),
++                                 (r6 * sin(73 * M_PI / 168.0)));
++         m_128apsk[20] = gr_complex((r2 * cos(1139 * M_PI / 2520.0)),
++                                 (r2 * sin(1139 * M_PI / 2520.0)));
++         m_128apsk[21] = gr_complex((r3 * cos(117 * M_PI / 280.0)),
++                                 (r3 * sin(117 * M_PI / 280.0)));
++         m_128apsk[22] = gr_complex((r5 * cos(341 * M_PI / 720.0)),
++                                 (r5 * sin(341 * M_PI / 720.0)));
++         m_128apsk[23] = gr_complex((r4 * cos(349 * M_PI / 840.0)),
++                                 (r4 * sin(349 * M_PI / 840.0)));
++         m_128apsk[24] = gr_complex((r1 * cos(177 * M_PI / 560.0)),
++                                 (r1 * sin(177 * M_PI / 560.0)));
++         m_128apsk[25] = gr_complex((r6 * cos(1789 * M_PI / 5040.0)),
++                                 (r6 * sin(1789 * M_PI / 5040.0)));
++         m_128apsk[26] = gr_complex((r6 * cos(49 * M_PI / 180.0)),
++                                 (r6 * sin(49 * M_PI / 180.0)));
++         m_128apsk[27] = gr_complex((r6 * cos(53 * M_PI / 168.0)),
++                                 (r6 * sin(53 * M_PI / 168.0)));
++         m_128apsk[28] = gr_complex((r2 * cos(167 * M_PI / 560.0)),
++                                 (r2 * sin(167 * M_PI / 560.0)));
++         m_128apsk[29] = gr_complex((r3 * cos(239 * M_PI / 720.0)),
++                                 (r3 * sin(239 * M_PI / 720.0)));
++         m_128apsk[30] = gr_complex((r5 * cos(199 * M_PI / 720.0)),
++                                 (r5 * sin(199 * M_PI / 720.0)));
++         m_128apsk[31] = gr_complex((r4 * cos(281 * M_PI / 840.0)),
++                                 (r4 * sin(281 * M_PI / 840.0)));
++         m_128apsk[32] = gr_complex((r1 * cos(1177 * M_PI / 1260.0)),
++                                 (r1 * sin(1177 * M_PI / 1260.0)));
++         m_128apsk[33] = gr_complex((r6 * cos(94 * M_PI / 105.0)),
++                                 (r6 * sin(94 * M_PI / 105.0)));
++         m_128apsk[34] = gr_complex((r6 * cos(1643 * M_PI / 1680.0)),
++                                 (r6 * sin(1643 * M_PI / 1680.0)));
++         m_128apsk[35] = gr_complex((r6 * cos(157 * M_PI / 168.0)),
++                                 (r6 * sin(157 * M_PI / 168.0)));
++         m_128apsk[36] = gr_complex((r2 * cos(2399 * M_PI / 2520.0)),
++                                 (r2 * sin(2399 * M_PI / 2520.0)));
++         m_128apsk[37] = gr_complex((r3 * cos(257 * M_PI / 280.0)),
++                                 (r3 * sin(257 * M_PI / 280.0)));
++         m_128apsk[38] = gr_complex((r5 * cos(701 * M_PI / 720.0)),
++                                 (r5 * sin(701 * M_PI / 720.0)));
++         m_128apsk[39] = gr_complex((r4 * cos(659 * M_PI / 720.0)),
++                                 (r4 * sin(659 * M_PI / 720.0)));
++         m_128apsk[40] = gr_complex((r1 * cos(457 * M_PI / 560.0)),
++                                 (r1 * sin(457 * M_PI / 560.0)));
++         m_128apsk[41] = gr_complex((r6 * cos(359 * M_PI / 420.0)),
++                                 (r6 * sin(359 * M_PI / 420.0)));
++         m_128apsk[42] = gr_complex((r6 * cos(1297 * M_PI / 1680.0)),
++                                 (r6 * sin(1297 * M_PI / 1680.0)));
++         m_128apsk[43] = gr_complex((r6 * cos(4111 * M_PI / 5040.0)),
++                                 (r6 * sin(4111 * M_PI / 5040.0)));
++         m_128apsk[44] = gr_complex((r2 * cos(447 * M_PI / 560.0)),
++                                 (r2 * sin(447 * M_PI / 560.0)));
++         m_128apsk[45] = gr_complex((r3 * cos(839 * M_PI / 1008.0)),
++                                 (r3 * sin(839 * M_PI / 1008.0)));
++         m_128apsk[46] = gr_complex((r5 * cos(1957 * M_PI / 2520.0)),
++                                 (r5 * sin(1957 * M_PI / 2520.0)));
++         m_128apsk[47] = gr_complex((r4 * cos(701 * M_PI / 840.0)),
++                                 (r4 * sin(701 * M_PI / 840.0)));
++         m_128apsk[48] = gr_complex((r1 * cos(317 * M_PI / 560.0)),
++                                 (r1 * sin(317 * M_PI / 560.0)));
++         m_128apsk[49] = gr_complex((r6 * cos(3047 * M_PI / 5040.0)),
++                                 (r6 * sin(3047 * M_PI / 5040.0)));
++         m_128apsk[50] = gr_complex((r6 * cos(47 * M_PI / 90.0)),
++                                 (r6 * sin(47 * M_PI / 90.0)));
++         m_128apsk[51] = gr_complex((r6 * cos(95 * M_PI / 168.0)),
++                                 (r6 * sin(95 * M_PI / 168.0)));
++         m_128apsk[52] = gr_complex((r2 * cos(1381 * M_PI / 2520.0)),
++                                 (r2 * sin(1381 * M_PI / 2520.0)));
++         m_128apsk[53] = gr_complex((r3 * cos(163 * M_PI / 280.0)),
++                                 (r3 * sin(163 * M_PI / 280.0)));
++         m_128apsk[54] = gr_complex((r5 * cos(379 * M_PI / 720.0)),
++                                 (r5 * sin(379 * M_PI / 720.0)));
++         m_128apsk[55] = gr_complex((r4 * cos(491 * M_PI / 840.0)),
++                                 (r4 * sin(491 * M_PI / 840.0)));
++         m_128apsk[56] = gr_complex((r1 * cos(383 * M_PI / 560.0)),
++                                 (r1 * sin(383 * M_PI / 560.0)));
++         m_128apsk[57] = gr_complex((r6 * cos(3251 * M_PI / 5040.0)),
++                                 (r6 * sin(3251 * M_PI / 5040.0)));
++         m_128apsk[58] = gr_complex((r6 * cos(131 * M_PI / 180.0)),
++                                 (r6 * sin(131 * M_PI / 180.0)));
++         m_128apsk[59] = gr_complex((r6 * cos(115 * M_PI / 168.0)),
++                                 (r6 * sin(115 * M_PI / 168.0)));
++         m_128apsk[60] = gr_complex((r2 * cos(393 * M_PI / 560.0)),
++                                 (r2 * sin(393 * M_PI / 560.0)));
++         m_128apsk[61] = gr_complex((r3 * cos(481 * M_PI / 720.0)),
++                                 (r3 * sin(481 * M_PI / 720.0)));
++         m_128apsk[62] = gr_complex((r5 * cos(521 * M_PI / 720.0)),
++                                 (r5 * sin(521 * M_PI / 720.0)));
++         m_128apsk[63] = gr_complex((r4 * cos(559 * M_PI / 840.0)),
++                                 (r4 * sin(559 * M_PI / 840.0)));
++         m_128apsk[64] = gr_complex((r1 * cos(2437 * M_PI / 1260.0)),
++                                 (r1 * sin(2437 * M_PI / 1260.0)));
++         m_128apsk[65] = gr_complex((r6 * cos(199 * M_PI / 105.0)),
++                                 (r6 * sin(199 * M_PI / 105.0)));
++         m_128apsk[66] = gr_complex((r6 * cos(3323 * M_PI / 1680.0)),
++                                 (r6 * sin(3323 * M_PI / 1680.0)));
++         m_128apsk[67] = gr_complex((r6 * cos(325 * M_PI / 168.0)),
++                                 (r6 * sin(325 * M_PI / 168.0)));
++         m_128apsk[68] = gr_complex((r2 * cos(4919 * M_PI / 2520.0)),
++                                 (r2 * sin(4919 * M_PI / 2520.0)));
++         m_128apsk[69] = gr_complex((r3 * cos(537 * M_PI / 280.0)),
++                                 (r3 * sin(537 * M_PI / 280.0)));
++         m_128apsk[70] = gr_complex((r5 * cos(1421 * M_PI / 720.0)),
++                                 (r5 * sin(1421 * M_PI / 720.0)));
++         m_128apsk[71] = gr_complex((r4 * cos(1379 * M_PI / 720.0)),
++                                 (r4 * sin(1379 * M_PI / 720.0)));
++         m_128apsk[72] = gr_complex((r1 * cos(1017 * M_PI / 560.0)),
++                                 (r1 * sin(1017 * M_PI / 560.0)));
++         m_128apsk[73] = gr_complex((r6 * cos(779 * M_PI / 420.0)),
++                                 (r6 * sin(779 * M_PI / 420.0)));
++         m_128apsk[74] = gr_complex((r6 * cos(2977 * M_PI / 1680.0)),
++                                 (r6 * sin(2977 * M_PI / 1680.0)));
++         m_128apsk[75] = gr_complex((r6 * cos(9151 * M_PI / 5040.0)),
++                                 (r6 * sin(9151 * M_PI / 5040.0)));
++         m_128apsk[76] = gr_complex((r2 * cos(1007 * M_PI / 560.0)),
++                                 (r2 * sin(1007 * M_PI / 560.0)));
++         m_128apsk[77] = gr_complex((r3 * cos(1847 * M_PI / 1008.0)),
++                                 (r3 * sin(1847 * M_PI / 1008.0)));
++         m_128apsk[78] = gr_complex((r5 * cos(4477 * M_PI / 2520.0)),
++                                 (r5 * sin(4477 * M_PI / 2520.0)));
++         m_128apsk[79] = gr_complex((r4 * cos(1541 * M_PI / 840.0)),
++                                 (r4 * sin(1541 * M_PI / 840.0)));
++         m_128apsk[80] = gr_complex((r1 * cos(877 * M_PI / 560.0)),
++                                 (r1 * sin(877 * M_PI / 560.0)));
++         m_128apsk[81] = gr_complex((r6 * cos(8087 * M_PI / 5040.0)),
++                                 (r6 * sin(8087 * M_PI / 5040.0)));
++         m_128apsk[82] = gr_complex((r6 * cos(137 * M_PI / 90.0)),
++                                 (r6 * sin(137 * M_PI / 90.0)));
++         m_128apsk[83] = gr_complex((r6 * cos(263 * M_PI / 168.0)),
++                                 (r6 * sin(263 * M_PI / 168.0)));
++         m_128apsk[84] = gr_complex((r2 * cos(3901 * M_PI / 2520.0)),
++                                 (r2 * sin(3901 * M_PI / 2520.0)));
++         m_128apsk[85] = gr_complex((r3 * cos(443 * M_PI / 280.0)),
++                                 (r3 * sin(443 * M_PI / 280.0)));
++         m_128apsk[86] = gr_complex((r5 * cos(1099 * M_PI / 720.0)),
++                                 (r5 * sin(1099 * M_PI / 720.0)));
++         m_128apsk[87] = gr_complex((r4 * cos(1331 * M_PI / 840.0)),
++                                 (r4 * sin(1331 * M_PI / 840.0)));
++         m_128apsk[88] = gr_complex((r1 * cos(943 * M_PI / 560.0)),
++                                 (r1 * sin(943 * M_PI / 560.0)));
++         m_128apsk[89] = gr_complex((r6 * cos(8291 * M_PI / 5040.0)),
++                                 (r6 * sin(8291 * M_PI / 5040.0)));
++         m_128apsk[90] = gr_complex((r6 * cos(311 * M_PI / 180.0)),
++                                 (r6 * sin(311 * M_PI / 180.0)));
++         m_128apsk[91] = gr_complex((r6 * cos(283 * M_PI / 168.0)),
++                                 (r6 * sin(283 * M_PI / 168.0)));
++         m_128apsk[92] = gr_complex((r2 * cos(953 * M_PI / 560.0)),
++                                 (r2 * sin(953 * M_PI / 560.0)));
++         m_128apsk[93] = gr_complex((r3 * cos(1201 * M_PI / 720.0)),
++                                 (r3 * sin(1201 * M_PI / 720.0)));
++         m_128apsk[94] = gr_complex((r5 * cos(1241 * M_PI / 720.0)),
++                                 (r5 * sin(1241 * M_PI / 720.0)));
++         m_128apsk[95] = gr_complex((r4 * cos(1399 * M_PI / 840.0)),
++                                 (r4 * sin(1399 * M_PI / 840.0)));
++         m_128apsk[96] = gr_complex((r1 * cos(1343 * M_PI / 1260.0)),
++                                 (r1 * sin(1343 * M_PI / 1260.0)));
++         m_128apsk[97] = gr_complex((r6 * cos(116 * M_PI / 105.0)),
++                                 (r6 * sin(116 * M_PI / 105.0)));
++         m_128apsk[98] = gr_complex((r6 * cos(1717 * M_PI / 1680.0)),
++                                 (r6 * sin(1717 * M_PI / 1680.0)));
++         m_128apsk[99] = gr_complex((r6 * cos(179 * M_PI / 168.0)),
++                                 (r6 * sin(179 * M_PI / 168.0)));
++         m_128apsk[100] = gr_complex((r2 * cos(2641 * M_PI / 2520.0)),
++                                 (r2 * sin(2641 * M_PI / 2520.0)));
++         m_128apsk[101] = gr_complex((r3 * cos(303 * M_PI / 280.0)),
++                                 (r3 * sin(303 * M_PI / 280.0)));
++         m_128apsk[102] = gr_complex((r5 * cos(739 * M_PI / 720.0)),
++                                 (r5 * sin(739 * M_PI / 720.0)));
++         m_128apsk[103] = gr_complex((r4 * cos(781 * M_PI / 720.0)),
++                                 (r4 * sin(781 * M_PI / 720.0)));
++         m_128apsk[104] = gr_complex((r1 * cos(663 * M_PI / 560.0)),
++                                 (r1 * sin(663 * M_PI / 560.0)));
++         m_128apsk[105] = gr_complex((r6 * cos(481 * M_PI / 420.0)),
++                                 (r6 * sin(481 * M_PI / 420.0)));
++         m_128apsk[106] = gr_complex((r6 * cos(2063 * M_PI / 1680.0)),
++                                 (r6 * sin(2063 * M_PI / 1680.0)));
++         m_128apsk[107] = gr_complex((r6 * cos(5969 * M_PI / 5040.0)),
++                                 (r6 * sin(5969 * M_PI / 5040.0)));
++         m_128apsk[108] = gr_complex((r2 * cos(673 * M_PI / 560.0)),
++                                 (r2 * sin(673 * M_PI / 560.0)));
++         m_128apsk[109] = gr_complex((r3 * cos(1177 * M_PI / 1008.0)),
++                                 (r3 * sin(1177 * M_PI / 1008.0)));
++         m_128apsk[110] = gr_complex((r5 * cos(3083 * M_PI / 2520.0)),
++                                 (r5 * sin(3083 * M_PI / 2520.0)));
++         m_128apsk[111] = gr_complex((r4 * cos(979 * M_PI / 840.0)),
++                                 (r4 * sin(979 * M_PI / 840.0)));
++         m_128apsk[112] = gr_complex((r1 * cos(803 * M_PI / 560.0)),
++                                 (r1 * sin(803 * M_PI / 560.0)));
++         m_128apsk[113] = gr_complex((r6 * cos(7033 * M_PI / 5040.0)),
++                                 (r6 * sin(7033 * M_PI / 5040.0)));
++         m_128apsk[114] = gr_complex((r6 * cos(133 * M_PI / 90.0)),
++                                 (r6 * sin(133 * M_PI / 90.0)));
++         m_128apsk[115] = gr_complex((r6 * cos(241 * M_PI / 168.0)),
++                                 (r6 * sin(241 * M_PI / 168.0)));
++         m_128apsk[116] = gr_complex((r2 * cos(3659 * M_PI / 2520.0)),
++                                 (r2 * sin(3659 * M_PI / 2520.0)));
++         m_128apsk[117] = gr_complex((r3 * cos(397 * M_PI / 280.0)),
++                                 (r3 * sin(397 * M_PI / 280.0)));
++         m_128apsk[118] = gr_complex((r5 * cos(1061 * M_PI / 720.0)),
++                                 (r5 * sin(1061 * M_PI / 720.0)));
++         m_128apsk[119] = gr_complex((r4 * cos(1189 * M_PI / 840.0)),
++                                 (r4 * sin(1189 * M_PI / 840.0)));
++         m_128apsk[120] = gr_complex((r1 * cos(737 * M_PI / 560.0)),
++                                 (r1 * sin(737 * M_PI / 560.0)));
++         m_128apsk[121] = gr_complex((r6 * cos(6829 * M_PI / 5040.0)),
++                                 (r6 * sin(6829 * M_PI / 5040.0)));
++         m_128apsk[122] = gr_complex((r6 * cos(229 * M_PI / 180.0)),
++                                 (r6 * sin(229 * M_PI / 180.0)));
++         m_128apsk[123] = gr_complex((r6 * cos(221 * M_PI / 168.0)),
++                                 (r6 * sin(221 * M_PI / 168.0)));
++         m_128apsk[124] = gr_complex((r2 * cos(727 * M_PI / 560.0)),
++                                 (r2 * sin(727 * M_PI / 560.0)));
++         m_128apsk[125] = gr_complex((r3 * cos(959 * M_PI / 720.0)),
++                                 (r3 * sin(959 * M_PI / 720.0)));
++         m_128apsk[126] = gr_complex((r5 * cos(919 * M_PI / 720.0)),
++                                 (r5 * sin(919 * M_PI / 720.0)));
++         m_128apsk[127] = gr_complex((r4 * cos(1121 * M_PI / 840.0)),
++                                 (r4 * sin(1121 * M_PI / 840.0)));
++         break;
++        case gr::dvbs2::MOD_256APSK:
++         if (rate == gr::dvbs2::C20_30)
++         {
++         m_256apsk[0] = gr_complex(1.6350,
++                                        0.1593);
++         m_256apsk[1] = gr_complex(1.5776,
++                                        0.4735);
++         m_256apsk[2] = gr_complex(0.9430,
++                                        0.1100);
++         m_256apsk[3] = gr_complex(0.9069,
++                                        0.2829);
++         m_256apsk[4] = gr_complex(0.3237,
++                                        0.0849);
++         m_256apsk[5] = gr_complex(0.3228,
++                                        0.0867);
++         m_256apsk[6] = gr_complex(0.7502,
++                                        0.1138);
++         m_256apsk[7] = gr_complex(0.7325,
++                                        0.2088);
++         m_256apsk[8] = gr_complex(0.1658,
++                                        1.6747);
++         m_256apsk[9] = gr_complex(0.4907,
++                                        1.6084);
++         m_256apsk[10] = gr_complex(0.1088,
++                                         0.9530);
++         m_256apsk[11] = gr_complex(0.2464,
++                                         0.9270);
++         m_256apsk[12] = gr_complex(0.0872,
++                                         0.1390);
++         m_256apsk[13] = gr_complex(0.0871,
++                                         0.1392);
++         m_256apsk[14] = gr_complex(0.1091,
++                                         0.7656);
++         m_256apsk[15] = gr_complex(0.1699,
++                                         0.7537);
++         m_256apsk[16] = gr_complex(-1.6350,
++                                         0.1593);
++         m_256apsk[17] = gr_complex(-1.5776,
++                                         0.4735);
++         m_256apsk[18] = gr_complex(-0.9430,
++                                         0.1100);
++         m_256apsk[19] = gr_complex(-0.9069,
++                                         0.2829);
++         m_256apsk[20] = gr_complex(-0.3237,
++                                         0.0849);
++         m_256apsk[21] = gr_complex(-0.3228,
++                                         0.0867);
++         m_256apsk[22] = gr_complex(-0.7502,
++                                         0.1138);
++         m_256apsk[23] = gr_complex(-0.7325,
++                                         0.2088);
++         m_256apsk[24] = gr_complex(-0.1658,
++                                         1.6747);
++         m_256apsk[25] = gr_complex(-0.4907,
++                                         1.6084);
++         m_256apsk[26] = gr_complex(-0.1088,
++                                         0.9530);
++         m_256apsk[27] = gr_complex(-0.2464,
++                                         0.9270);
++         m_256apsk[28] = gr_complex(-0.0872,
++                                         0.1390);
++         m_256apsk[29] = gr_complex(-0.0871,
++                                         0.1392);
++         m_256apsk[30] = gr_complex(-0.1091,
++                                         0.7656);
++         m_256apsk[31] = gr_complex(-0.1699,
++                                         0.7537);
++         m_256apsk[32] = gr_complex(1.3225,
++                                         0.1320);
++         m_256apsk[33] = gr_complex(1.2742,
++                                         0.3922);
++         m_256apsk[34] = gr_complex(1.0854,
++                                         0.1139);
++         m_256apsk[35] = gr_complex(1.0441,
++                                         0.3296);
++         m_256apsk[36] = gr_complex(0.4582,
++                                         0.1123);
++         m_256apsk[37] = gr_complex(0.4545,
++                                         0.1251);
++         m_256apsk[38] = gr_complex(0.6473,
++                                         0.1138);
++         m_256apsk[39] = gr_complex(0.6339,
++                                         0.1702);
++         m_256apsk[40] = gr_complex(0.1322,
++                                         1.3631);
++         m_256apsk[41] = gr_complex(0.3929,
++                                         1.3102);
++         m_256apsk[42] = gr_complex(0.1124,
++                                         1.1327);
++         m_256apsk[43] = gr_complex(0.3160,
++                                         1.0913);
++         m_256apsk[44] = gr_complex(0.0928,
++                                         0.3970);
++         m_256apsk[45] = gr_complex(0.0937,
++                                         0.3973);
++         m_256apsk[46] = gr_complex(0.1054,
++                                         0.5979);
++         m_256apsk[47] = gr_complex(0.1230,
++                                         0.5949);
++         m_256apsk[48] = gr_complex(-1.3225,
++                                         0.1320);
++         m_256apsk[49] = gr_complex(-1.2742,
++                                         0.3922);
++         m_256apsk[50] = gr_complex(-1.0854,
++                                         0.1139);
++         m_256apsk[51] = gr_complex(-1.0441,
++                                         0.3296);
++         m_256apsk[52] = gr_complex(-0.4582,
++                                         0.1123);
++         m_256apsk[53] = gr_complex(-0.4545,
++                                         0.1251);
++         m_256apsk[54] = gr_complex(-0.6473,
++                                         0.1138);
++         m_256apsk[55] = gr_complex(-0.6339,
++                                         0.1702);
++         m_256apsk[56] = gr_complex(-0.1322,
++                                         1.3631);
++         m_256apsk[57] = gr_complex(-0.3929,
++                                         1.3102);
++         m_256apsk[58] = gr_complex(-0.1124,
++                                         1.1327);
++         m_256apsk[59] = gr_complex(-0.3160,
++                                         1.0913);
++         m_256apsk[60] = gr_complex(-0.0928,
++                                         0.3970);
++         m_256apsk[61] = gr_complex(-0.0937,
++                                         0.3973);
++         m_256apsk[62] = gr_complex(-0.1054,
++                                         0.5979);
++         m_256apsk[63] = gr_complex(-0.1230,
++                                         0.5949);
++         m_256apsk[64] = gr_complex(1.6350,
++                                         -0.1593);
++         m_256apsk[65] = gr_complex(1.5776,
++                                         -0.4735);
++         m_256apsk[66] = gr_complex(0.9430,
++                                         -0.1100);
++         m_256apsk[67] = gr_complex(0.9069,
++                                         -0.2829);
++         m_256apsk[68] = gr_complex(0.3237,
++                                         -0.0849);
++         m_256apsk[69] = gr_complex(0.3228,
++                                         -0.0867);
++         m_256apsk[70] = gr_complex(0.7502,
++                                         -0.1138);
++         m_256apsk[71] = gr_complex(0.7325,
++                                         -0.2088);
++         m_256apsk[72] = gr_complex(0.1658,
++                                         -1.6747);
++         m_256apsk[73] = gr_complex(0.4907,
++                                         -1.6084);
++         m_256apsk[74] = gr_complex(0.1088,
++                                         -0.9530);
++         m_256apsk[75] = gr_complex(0.2464,
++                                         -0.9270);
++         m_256apsk[76] = gr_complex(0.0872,
++                                         -0.1390);
++         m_256apsk[77] = gr_complex(0.0871,
++                                         -0.1392);
++         m_256apsk[78] = gr_complex(0.1091,
++                                         -0.7656);
++         m_256apsk[79] = gr_complex(0.1699,
++                                         -0.7537);
++         m_256apsk[80] = gr_complex(-1.6350,
++                                         -0.1593);
++         m_256apsk[81] = gr_complex(-1.5776,
++                                         -0.4735);
++         m_256apsk[82] = gr_complex(-0.9430,
++                                         -0.1100);
++         m_256apsk[83] = gr_complex(-0.9069,
++                                         -0.2829);
++         m_256apsk[84] = gr_complex(-0.3237,
++                                         -0.0849);
++         m_256apsk[85] = gr_complex(-0.3228,
++                                         -0.0867);
++         m_256apsk[86] = gr_complex(-0.7502,
++                                         -0.1138);
++         m_256apsk[87] = gr_complex(-0.7325,
++                                         -0.2088);
++         m_256apsk[88] = gr_complex(-0.1658,
++                                         -1.6747);
++         m_256apsk[89] = gr_complex(-0.4907,
++                                         -1.6084);
++         m_256apsk[90] = gr_complex(-0.1088,
++                                         -0.9530);
++         m_256apsk[91] = gr_complex(-0.2464,
++                                         -0.9270);
++         m_256apsk[92] = gr_complex(-0.0872,
++                                         -0.1390);
++         m_256apsk[93] = gr_complex(-0.0871,
++                                         -0.1392);
++         m_256apsk[94] = gr_complex(-0.1091,
++                                         -0.7656);
++         m_256apsk[95] = gr_complex(-0.1699,
++                                         -0.7537);
++         m_256apsk[96] = gr_complex(1.3225,
++                                         -0.1320);
++         m_256apsk[97] = gr_complex(1.2742,
++                                         -0.3922);
++         m_256apsk[98] = gr_complex(1.0854,
++                                         -0.1139);
++         m_256apsk[99] = gr_complex(1.0441,
++                                         -0.3296);
++         m_256apsk[100] = gr_complex(0.4582,
++                                         -0.1123);
++         m_256apsk[101] = gr_complex(0.4545,
++                                         -0.1251);
++         m_256apsk[102] = gr_complex(0.6473,
++                                         -0.1138);
++         m_256apsk[103] = gr_complex(0.6339,
++                                         -0.1702);
++         m_256apsk[104] = gr_complex(0.1322,
++                                         -1.3631);
++         m_256apsk[105] = gr_complex(0.3929,
++                                         -1.3102);
++         m_256apsk[106] = gr_complex(0.1124,
++                                         -1.1327);
++         m_256apsk[107] = gr_complex(0.3160,
++                                         -1.0913);
++         m_256apsk[108] = gr_complex(0.0928,
++                                         -0.3970);
++         m_256apsk[109] = gr_complex(0.0937,
++                                         -0.3973);
++         m_256apsk[110] = gr_complex(0.1054,
++                                         -0.5979);
++         m_256apsk[111] = gr_complex(0.1230,
++                                         -0.5949);
++         m_256apsk[112] = gr_complex(-1.3225,
++                                         -0.1320);
++         m_256apsk[113] = gr_complex(-1.2742,
++                                         -0.3922);
++         m_256apsk[114] = gr_complex(-1.0854,
++                                         -0.1139);
++         m_256apsk[115] = gr_complex(-1.0441,
++                                         -0.3296);
++         m_256apsk[116] = gr_complex(-0.4582,
++                                         -0.1123);
++         m_256apsk[117] = gr_complex(-0.4545,
++                                         -0.1251);
++         m_256apsk[118] = gr_complex(-0.6473,
++                                         -0.1138);
++         m_256apsk[119] = gr_complex(-0.6339,
++                                         -0.1702);
++         m_256apsk[120] = gr_complex(-0.1322,
++                                         -1.3631);
++         m_256apsk[121] = gr_complex(-0.3929,
++                                         -1.3102);
++         m_256apsk[122] = gr_complex(-0.1124,
++                                         -1.1327);
++         m_256apsk[123] = gr_complex(-0.3160,
++                                         -1.0913);
++         m_256apsk[124] = gr_complex(-0.0928,
++                                         -0.3970);
++         m_256apsk[125] = gr_complex(-0.0937,
++                                         -0.3973);
++         m_256apsk[126] = gr_complex(-0.1054,
++                                         -0.5979);
++         m_256apsk[127] = gr_complex(-0.1230,
++                                         -0.5949);
++         m_256apsk[128] = gr_complex(1.2901,
++                                         1.0495);
++         m_256apsk[129] = gr_complex(1.4625,
++                                         0.7740);
++         m_256apsk[130] = gr_complex(0.7273,
++                                         0.6160);
++         m_256apsk[131] = gr_complex(0.8177,
++                                         0.4841);
++         m_256apsk[132] = gr_complex(0.2844,
++                                         0.1296);
++         m_256apsk[133] = gr_complex(0.2853,
++                                         0.1309);
++         m_256apsk[134] = gr_complex(0.5902,
++                                         0.4857);
++         m_256apsk[135] = gr_complex(0.6355,
++                                         0.4185);
++         m_256apsk[136] = gr_complex(1.0646,
++                                         1.2876);
++         m_256apsk[137] = gr_complex(0.7949,
++                                         1.4772);
++         m_256apsk[138] = gr_complex(0.5707,
++                                         0.7662);
++         m_256apsk[139] = gr_complex(0.4490,
++                                         0.8461);
++         m_256apsk[140] = gr_complex(0.1053,
++                                         0.1494);
++         m_256apsk[141] = gr_complex(0.1052,
++                                         0.1495);
++         m_256apsk[142] = gr_complex(0.4294,
++                                         0.6363);
++         m_256apsk[143] = gr_complex(0.3744,
++                                         0.6744);
++         m_256apsk[144] = gr_complex(-1.2901,
++                                         1.0495);
++         m_256apsk[145] = gr_complex(-1.4625,
++                                         0.7740);
++         m_256apsk[146] = gr_complex(-0.7273,
++                                         0.6160);
++         m_256apsk[147] = gr_complex(-0.8177,
++                                         0.4841);
++         m_256apsk[148] = gr_complex(-0.2844,
++                                         0.1296);
++         m_256apsk[149] = gr_complex(-0.2853,
++                                         0.1309);
++         m_256apsk[150] = gr_complex(-0.5902,
++                                         0.4857);
++         m_256apsk[151] = gr_complex(-0.6355,
++                                         0.4185);
++         m_256apsk[152] = gr_complex(-1.0646,
++                                         1.2876);
++         m_256apsk[153] = gr_complex(-0.7949,
++                                         1.4772);
++         m_256apsk[154] = gr_complex(-0.5707,
++                                         0.7662);
++         m_256apsk[155] = gr_complex(-0.4490,
++                                         0.8461);
++         m_256apsk[156] = gr_complex(-0.1053,
++                                         0.1494);
++         m_256apsk[157] = gr_complex(-0.1052,
++                                         0.1495);
++         m_256apsk[158] = gr_complex(-0.4294,
++                                         0.6363);
++         m_256apsk[159] = gr_complex(-0.3744,
++                                         0.6744);
++         m_256apsk[160] = gr_complex(1.0382,
++                                         0.8623);
++         m_256apsk[161] = gr_complex(1.1794,
++                                         0.6376);
++         m_256apsk[162] = gr_complex(0.8504,
++                                         0.7217);
++         m_256apsk[163] = gr_complex(0.9638,
++                                         0.5407);
++         m_256apsk[164] = gr_complex(0.3734,
++                                         0.2560);
++         m_256apsk[165] = gr_complex(0.3799,
++                                         0.2517);
++         m_256apsk[166] = gr_complex(0.4968,
++                                         0.3947);
++         m_256apsk[167] = gr_complex(0.5231,
++                                         0.3644);
++         m_256apsk[168] = gr_complex(0.8555,
++                                         1.0542);
++         m_256apsk[169] = gr_complex(0.6363,
++                                         1.2064);
++         m_256apsk[170] = gr_complex(0.6961,
++                                         0.8850);
++         m_256apsk[171] = gr_complex(0.5229,
++                                         1.0037);
++         m_256apsk[172] = gr_complex(0.1938,
++                                         0.3621);
++         m_256apsk[173] = gr_complex(0.1909,
++                                         0.3627);
++         m_256apsk[174] = gr_complex(0.3224,
++                                         0.5236);
++         m_256apsk[175] = gr_complex(0.3016,
++                                         0.5347);
++         m_256apsk[176] = gr_complex(-1.0382,
++                                         0.8623);
++         m_256apsk[177] = gr_complex(-1.1794,
++                                         0.6376);
++         m_256apsk[178] = gr_complex(-0.8504,
++                                         0.7217);
++         m_256apsk[179] = gr_complex(-0.9638,
++                                         0.5407);
++         m_256apsk[180] = gr_complex(-0.3734,
++                                         0.2560);
++         m_256apsk[181] = gr_complex(-0.3799,
++                                         0.2517);
++         m_256apsk[182] = gr_complex(-0.4968,
++                                         0.3947);
++         m_256apsk[183] = gr_complex(-0.5231,
++                                         0.3644);
++         m_256apsk[184] = gr_complex(-0.8555,
++                                         1.0542);
++         m_256apsk[185] = gr_complex(-0.6363,
++                                         1.2064);
++         m_256apsk[186] = gr_complex(-0.6961,
++                                         0.8850);
++         m_256apsk[187] = gr_complex(-0.5229,
++                                         1.0037);
++         m_256apsk[188] = gr_complex(-0.1938,
++                                         0.3621);
++         m_256apsk[189] = gr_complex(-0.1909,
++                                         0.3627);
++         m_256apsk[190] = gr_complex(-0.3224,
++                                         0.5236);
++         m_256apsk[191] = gr_complex(-0.3016,
++                                         0.5347);
++         m_256apsk[192] = gr_complex(1.2901,
++                                         -1.0495);
++         m_256apsk[193] = gr_complex(1.4625,
++                                         -0.7740);
++         m_256apsk[194] = gr_complex(0.7273,
++                                         -0.6160);
++         m_256apsk[195] = gr_complex(0.8177,
++                                         -0.4841);
++         m_256apsk[196] = gr_complex(0.2844,
++                                         -0.1296);
++         m_256apsk[197] = gr_complex(0.2853,
++                                         -0.1309);
++         m_256apsk[198] = gr_complex(0.5902,
++                                         -0.4857);
++         m_256apsk[199] = gr_complex(0.6355,
++                                         -0.4185);
++         m_256apsk[200] = gr_complex(1.0646,
++                                         -1.2876);
++         m_256apsk[201] = gr_complex(0.7949,
++                                         -1.4772);
++         m_256apsk[202] = gr_complex(0.5707,
++                                         -0.7662);
++         m_256apsk[203] = gr_complex(0.4490,
++                                         -0.8461);
++         m_256apsk[204] = gr_complex(0.1053,
++                                         -0.1494);
++         m_256apsk[205] = gr_complex(0.1052,
++                                         -0.1495);
++         m_256apsk[206] = gr_complex(0.4294,
++                                         -0.6363);
++         m_256apsk[207] = gr_complex(0.3744,
++                                         -0.6744);
++         m_256apsk[208] = gr_complex(-1.2901,
++                                         -1.0495);
++         m_256apsk[209] = gr_complex(-1.4625,
++                                         -0.7740);
++         m_256apsk[210] = gr_complex(-0.7273,
++                                         -0.6160);
++         m_256apsk[211] = gr_complex(-0.8177,
++                                         -0.4841);
++         m_256apsk[212] = gr_complex(-0.2844,
++                                         -0.1296);
++         m_256apsk[213] = gr_complex(-0.2853,
++                                         -0.1309);
++         m_256apsk[214] = gr_complex(-0.5902,
++                                         -0.4857);
++         m_256apsk[215] = gr_complex(-0.6355,
++                                         -0.4185);
++         m_256apsk[216] = gr_complex(-1.0646,
++                                         -1.2876);
++         m_256apsk[217] = gr_complex(-0.7949,
++                                         -1.4772);
++         m_256apsk[218] = gr_complex(-0.5707,
++                                         -0.7662);
++         m_256apsk[219] = gr_complex(-0.4490,
++                                         -0.8461);
++         m_256apsk[220] = gr_complex(-0.1053,
++                                         -0.1494);
++         m_256apsk[221] = gr_complex(-0.1052,
++                                         -0.1495);
++         m_256apsk[222] = gr_complex(-0.4294,
++                                         -0.6363);
++         m_256apsk[223] = gr_complex(-0.3744,
++                                         -0.6744);
++         m_256apsk[224] = gr_complex(1.0382,
++                                         -0.8623);
++         m_256apsk[225] = gr_complex(1.1794,
++                                         -0.6376);
++         m_256apsk[226] = gr_complex(0.8504,
++                                         -0.7217);
++         m_256apsk[227] = gr_complex(0.9638,
++                                         -0.5407);
++         m_256apsk[228] = gr_complex(0.3734,
++                                         -0.2560);
++         m_256apsk[229] = gr_complex(0.3799,
++                                         -0.2517);
++         m_256apsk[230] = gr_complex(0.4968,
++                                         -0.3947);
++         m_256apsk[231] = gr_complex(0.5231,
++                                         -0.3644);
++         m_256apsk[232] = gr_complex(0.8555,
++                                         -1.0542);
++         m_256apsk[233] = gr_complex(0.6363,
++                                         -1.2064);
++         m_256apsk[234] = gr_complex(0.6961,
++                                         -0.8850);
++         m_256apsk[235] = gr_complex(0.5229,
++                                         -1.0037);
++         m_256apsk[236] = gr_complex(0.1938,
++                                         -0.3621);
++         m_256apsk[237] = gr_complex(0.1909,
++                                         -0.3627);
++         m_256apsk[238] = gr_complex(0.3224,
++                                         -0.5236);
++         m_256apsk[239] = gr_complex(0.3016,
++                                         -0.5347);
++         m_256apsk[240] = gr_complex(-1.0382,
++                                         -0.8623);
++         m_256apsk[241] = gr_complex(-1.1794,
++                                         -0.6376);
++         m_256apsk[242] = gr_complex(-0.8504,
++                                         -0.7217);
++         m_256apsk[243] = gr_complex(-0.9638,
++                                         -0.5407);
++         m_256apsk[244] = gr_complex(-0.3734,
++                                         -0.2560);
++         m_256apsk[245] = gr_complex(-0.3799,
++                                         -0.2517);
++         m_256apsk[246] = gr_complex(-0.4968,
++                                         -0.3947);
++         m_256apsk[247] = gr_complex(-0.5231,
++                                         -0.3644);
++         m_256apsk[248] = gr_complex(-0.8555,
++                                         -1.0542);
++         m_256apsk[249] = gr_complex(-0.6363,
++                                         -1.2064);
++         m_256apsk[250] = gr_complex(-0.6961,
++                                         -0.8850);
++         m_256apsk[251] = gr_complex(-0.5229,
++                                         -1.0037);
++         m_256apsk[252] = gr_complex(-0.1938,
++                                         -0.3621);
++         m_256apsk[253] = gr_complex(-0.1909,
++                                         -0.3627);
++         m_256apsk[254] = gr_complex(-0.3224,
++                                         -0.5236);
++         m_256apsk[255] = gr_complex(-0.3016,
++                                         -0.5347);
++         for (int i = 0; i < 256; i++)
++                {
++                 m_256apsk[i] /= 1.6747;
++                }
++         }
++         else if (rate == gr::dvbs2::C22_30)
++         {
++         m_256apsk[0] = gr_complex(1.5977,
++                                        0.1526);
++         m_256apsk[1] = gr_complex(1.3187,
++                                        0.1269);
++         m_256apsk[2] = gr_complex(-1.5977,
++                                        0.1526);
++         m_256apsk[3] = gr_complex(-1.3187,
++                                        0.1269);
++         m_256apsk[4] = gr_complex(0.2574,
++                                        0.0733);
++         m_256apsk[5] = gr_complex(0.4496,
++                                        0.0807);
++         m_256apsk[6] = gr_complex(-0.2574,
++                                        0.0733);
++         m_256apsk[7] = gr_complex(-0.4496,
++                                        0.0807);
++         m_256apsk[8] = gr_complex(1.5977,
++                                        -0.1526);
++         m_256apsk[9] = gr_complex(1.3187,
++                                        -0.1269);
++         m_256apsk[10] = gr_complex(-1.5977,
++                                         -0.1526);
++         m_256apsk[11] = gr_complex(-1.3187,
++                                         -0.1269);
++         m_256apsk[12] = gr_complex(0.2574,
++                                         -0.0733);
++         m_256apsk[13] = gr_complex(0.4496,
++                                         -0.0807);
++         m_256apsk[14] = gr_complex(-0.2574,
++                                         -0.0733);
++         m_256apsk[15] = gr_complex(-0.4496,
++                                         -0.0807);
++         m_256apsk[16] = gr_complex(0.9269,
++                                         0.0943);
++         m_256apsk[17] = gr_complex(1.1024,
++                                         0.1086);
++         m_256apsk[18] = gr_complex(-0.9269,
++                                         0.0943);
++         m_256apsk[19] = gr_complex(-1.1024,
++                                         0.1086);
++         m_256apsk[20] = gr_complex(0.7663,
++                                         0.0867);
++         m_256apsk[21] = gr_complex(0.6115,
++                                         0.0871);
++         m_256apsk[22] = gr_complex(-0.7663,
++                                         0.0867);
++         m_256apsk[23] = gr_complex(-0.6115,
++                                         0.0871);
++         m_256apsk[24] = gr_complex(0.9269,
++                                         -0.0943);
++         m_256apsk[25] = gr_complex(1.1024,
++                                         -0.1086);
++         m_256apsk[26] = gr_complex(-0.9269,
++                                         -0.0943);
++         m_256apsk[27] = gr_complex(-1.1024,
++                                         -0.1086);
++         m_256apsk[28] = gr_complex(0.7663,
++                                         -0.0867);
++         m_256apsk[29] = gr_complex(0.6115,
++                                         -0.0871);
++         m_256apsk[30] = gr_complex(-0.7663,
++                                         -0.0867);
++         m_256apsk[31] = gr_complex(-0.6115,
++                                         -0.0871);
++         m_256apsk[32] = gr_complex(1.2701,
++                                         1.0139);
++         m_256apsk[33] = gr_complex(1.0525,
++                                         0.8406);
++         m_256apsk[34] = gr_complex(-1.2701,
++                                         1.0139);
++         m_256apsk[35] = gr_complex(-1.0525,
++                                         0.8406);
++         m_256apsk[36] = gr_complex(0.2487,
++                                         0.1978);
++         m_256apsk[37] = gr_complex(0.3523,
++                                         0.2915);
++         m_256apsk[38] = gr_complex(-0.2487,
++                                         0.1978);
++         m_256apsk[39] = gr_complex(-0.3523,
++                                         0.2915);
++         m_256apsk[40] = gr_complex(1.2701,
++                                         -1.0139);
++         m_256apsk[41] = gr_complex(1.0525,
++                                         -0.8406);
++         m_256apsk[42] = gr_complex(-1.2701,
++                                         -1.0139);
++         m_256apsk[43] = gr_complex(-1.0525,
++                                         -0.8406);
++         m_256apsk[44] = gr_complex(0.2487,
++                                         -0.1978);
++         m_256apsk[45] = gr_complex(0.3523,
++                                         -0.2915);
++         m_256apsk[46] = gr_complex(-0.2487,
++                                         -0.1978);
++         m_256apsk[47] = gr_complex(-0.3523,
++                                         -0.2915);
++         m_256apsk[48] = gr_complex(0.7359,
++                                         0.6043);
++         m_256apsk[49] = gr_complex(0.8807,
++                                         0.7105);
++         m_256apsk[50] = gr_complex(-0.7359,
++                                         0.6043);
++         m_256apsk[51] = gr_complex(-0.8807,
++                                         0.7105);
++         m_256apsk[52] = gr_complex(0.6017,
++                                         0.5019);
++         m_256apsk[53] = gr_complex(0.4747,
++                                         0.3996);
++         m_256apsk[54] = gr_complex(-0.6017,
++                                         0.5019);
++         m_256apsk[55] = gr_complex(-0.4747,
++                                         0.3996);
++         m_256apsk[56] = gr_complex(0.7359,
++                                         -0.6043);
++         m_256apsk[57] = gr_complex(0.8807,
++                                         -0.7105);
++         m_256apsk[58] = gr_complex(-0.7359,
++                                         -0.6043);
++         m_256apsk[59] = gr_complex(-0.8807,
++                                         -0.7105);
++         m_256apsk[60] = gr_complex(0.6017,
++                                         -0.5019);
++         m_256apsk[61] = gr_complex(0.4747,
++                                         -0.3996);
++         m_256apsk[62] = gr_complex(-0.6017,
++                                         -0.5019);
++         m_256apsk[63] = gr_complex(-0.4747,
++                                         -0.3996);
++         m_256apsk[64] = gr_complex(1.5441,
++                                         0.4545);
++         m_256apsk[65] = gr_complex(1.2750,
++                                         0.3775);
++         m_256apsk[66] = gr_complex(-1.5441,
++                                         0.4545);
++         m_256apsk[67] = gr_complex(-1.2750,
++                                         0.3775);
++         m_256apsk[68] = gr_complex(0.2586,
++                                         0.0752);
++         m_256apsk[69] = gr_complex(0.4435,
++                                         0.1065);
++         m_256apsk[70] = gr_complex(-0.2586,
++                                         0.0752);
++         m_256apsk[71] = gr_complex(-0.4435,
++                                         0.1065);
++         m_256apsk[72] = gr_complex(1.5441,
++                                         -0.4545);
++         m_256apsk[73] = gr_complex(1.2750,
++                                         -0.3775);
++         m_256apsk[74] = gr_complex(-1.5441,
++                                         -0.4545);
++         m_256apsk[75] = gr_complex(-1.2750,
++                                         -0.3775);
++         m_256apsk[76] = gr_complex(0.2586,
++                                         -0.0752);
++         m_256apsk[77] = gr_complex(0.4435,
++                                         -0.1065);
++         m_256apsk[78] = gr_complex(-0.2586,
++                                         -0.0752);
++         m_256apsk[79] = gr_complex(-0.4435,
++                                         -0.1065);
++         m_256apsk[80] = gr_complex(0.8925,
++                                         0.2771);
++         m_256apsk[81] = gr_complex(1.0649,
++                                         0.3219);
++         m_256apsk[82] = gr_complex(-0.8925,
++                                         0.2771);
++         m_256apsk[83] = gr_complex(-1.0649,
++                                         0.3219);
++         m_256apsk[84] = gr_complex(0.7362,
++                                         0.2279);
++         m_256apsk[85] = gr_complex(0.5936,
++                                         0.1699);
++         m_256apsk[86] = gr_complex(-0.7362,
++                                         0.2279);
++         m_256apsk[87] = gr_complex(-0.5936,
++                                         0.1699);
++         m_256apsk[88] = gr_complex(0.8925,
++                                         -0.2771);
++         m_256apsk[89] = gr_complex(1.0649,
++                                         -0.3219);
++         m_256apsk[90] = gr_complex(-0.8925,
++                                         -0.2771);
++         m_256apsk[91] = gr_complex(-1.0649,
++                                         -0.3219);
++         m_256apsk[92] = gr_complex(0.7362,
++                                         -0.2279);
++         m_256apsk[93] = gr_complex(0.5936,
++                                         -0.1699);
++         m_256apsk[94] = gr_complex(-0.7362,
++                                         -0.2279);
++         m_256apsk[95] = gr_complex(-0.5936,
++                                         -0.1699);
++         m_256apsk[96] = gr_complex(1.4352,
++                                         0.7452);
++         m_256apsk[97] = gr_complex(1.1866,
++                                         0.6182);
++         m_256apsk[98] = gr_complex(-1.4352,
++                                         0.7452);
++         m_256apsk[99] = gr_complex(-1.1866,
++                                         0.6182);
++         m_256apsk[100] = gr_complex(0.2523,
++                                         0.1944);
++         m_256apsk[101] = gr_complex(0.3695,
++                                         0.2695);
++         m_256apsk[102] = gr_complex(-0.2523,
++                                         0.1944);
++         m_256apsk[103] = gr_complex(-0.3695,
++                                         0.2695);
++         m_256apsk[104] = gr_complex(1.4352,
++                                         -0.7452);
++         m_256apsk[105] = gr_complex(1.1866,
++                                         -0.6182);
++         m_256apsk[106] = gr_complex(-1.4352,
++                                         -0.7452);
++         m_256apsk[107] = gr_complex(-1.1866,
++                                         -0.6182);
++         m_256apsk[108] = gr_complex(0.2523,
++                                         -0.1944);
++         m_256apsk[109] = gr_complex(0.3695,
++                                         -0.2695);
++         m_256apsk[110] = gr_complex(-0.2523,
++                                         -0.1944);
++         m_256apsk[111] = gr_complex(-0.3695,
++                                         -0.2695);
++         m_256apsk[112] = gr_complex(0.8273,
++                                         0.4493);
++         m_256apsk[113] = gr_complex(0.9911,
++                                         0.5243);
++         m_256apsk[114] = gr_complex(-0.8273,
++                                         0.4493);
++         m_256apsk[115] = gr_complex(-0.9911,
++                                         0.5243);
++         m_256apsk[116] = gr_complex(0.6708,
++                                         0.3859);
++         m_256apsk[117] = gr_complex(0.5197,
++                                         0.3331);
++         m_256apsk[118] = gr_complex(-0.6708,
++                                         0.3859);
++         m_256apsk[119] = gr_complex(-0.5197,
++                                         0.3331);
++         m_256apsk[120] = gr_complex(0.8273,
++                                         -0.4493);
++         m_256apsk[121] = gr_complex(0.9911,
++                                         -0.5243);
++         m_256apsk[122] = gr_complex(-0.8273,
++                                         -0.4493);
++         m_256apsk[123] = gr_complex(-0.9911,
++                                         -0.5243);
++         m_256apsk[124] = gr_complex(0.6708,
++                                         -0.3859);
++         m_256apsk[125] = gr_complex(0.5197,
++                                         -0.3331);
++         m_256apsk[126] = gr_complex(-0.6708,
++                                         -0.3859);
++         m_256apsk[127] = gr_complex(-0.5197,
++                                         -0.3331);
++         m_256apsk[128] = gr_complex(0.1646,
++                                         1.6329);
++         m_256apsk[129] = gr_complex(0.1379,
++                                         1.3595);
++         m_256apsk[130] = gr_complex(-0.1646,
++                                         1.6329);
++         m_256apsk[131] = gr_complex(-0.1379,
++                                         1.3595);
++         m_256apsk[132] = gr_complex(0.0736,
++                                         0.0898);
++         m_256apsk[133] = gr_complex(0.0742,
++                                         0.5054);
++         m_256apsk[134] = gr_complex(-0.0736,
++                                         0.0898);
++         m_256apsk[135] = gr_complex(-0.0742,
++                                         0.5054);
++         m_256apsk[136] = gr_complex(0.1646,
++                                         -1.6329);
++         m_256apsk[137] = gr_complex(0.1379,
++                                         -1.3595);
++         m_256apsk[138] = gr_complex(-0.1646,
++                                         -1.6329);
++         m_256apsk[139] = gr_complex(-0.1379,
++                                         -1.3595);
++         m_256apsk[140] = gr_complex(0.0736,
++                                         -0.0898);
++         m_256apsk[141] = gr_complex(0.0742,
++                                         -0.5054);
++         m_256apsk[142] = gr_complex(-0.0736,
++                                         -0.0898);
++         m_256apsk[143] = gr_complex(-0.0742,
++                                         -0.5054);
++         m_256apsk[144] = gr_complex(0.0992,
++                                         0.9847);
++         m_256apsk[145] = gr_complex(0.1170,
++                                         1.1517);
++         m_256apsk[146] = gr_complex(-0.0992,
++                                         0.9847);
++         m_256apsk[147] = gr_complex(-0.1170,
++                                         1.1517);
++         m_256apsk[148] = gr_complex(0.0894,
++                                         0.8287);
++         m_256apsk[149] = gr_complex(0.0889,
++                                         0.6739);
++         m_256apsk[150] = gr_complex(-0.0894,
++                                         0.8287);
++         m_256apsk[151] = gr_complex(-0.0889,
++                                         0.6739);
++         m_256apsk[152] = gr_complex(0.0992,
++                                         -0.9847);
++         m_256apsk[153] = gr_complex(0.1170,
++                                         -1.1517);
++         m_256apsk[154] = gr_complex(-0.0992,
++                                         -0.9847);
++         m_256apsk[155] = gr_complex(-0.1170,
++                                         -1.1517);
++         m_256apsk[156] = gr_complex(0.0894,
++                                         -0.8287);
++         m_256apsk[157] = gr_complex(0.0889,
++                                         -0.6739);
++         m_256apsk[158] = gr_complex(-0.0894,
++                                         -0.8287);
++         m_256apsk[159] = gr_complex(-0.0889,
++                                         -0.6739);
++         m_256apsk[160] = gr_complex(1.0516,
++                                         1.2481);
++         m_256apsk[161] = gr_complex(0.8742,
++                                         1.0355);
++         m_256apsk[162] = gr_complex(-1.0516,
++                                         1.2481);
++         m_256apsk[163] = gr_complex(-0.8742,
++                                         1.0355);
++         m_256apsk[164] = gr_complex(0.0970,
++                                         0.2450);
++         m_256apsk[165] = gr_complex(0.1959,
++                                         0.4045);
++         m_256apsk[166] = gr_complex(-0.0970,
++                                         0.2450);
++         m_256apsk[167] = gr_complex(-0.1959,
++                                         0.4045);
++         m_256apsk[168] = gr_complex(1.0516,
++                                         -1.2481);
++         m_256apsk[169] = gr_complex(0.8742,
++                                         -1.0355);
++         m_256apsk[170] = gr_complex(-1.0516,
++                                         -1.2481);
++         m_256apsk[171] = gr_complex(-0.8742,
++                                         -1.0355);
++         m_256apsk[172] = gr_complex(0.0970,
++                                         -0.2450);
++         m_256apsk[173] = gr_complex(0.1959,
++                                         -0.4045);
++         m_256apsk[174] = gr_complex(-0.0970,
++                                         -0.2450);
++         m_256apsk[175] = gr_complex(-0.1959,
++                                         -0.4045);
++         m_256apsk[176] = gr_complex(0.6150,
++                                         0.7441);
++         m_256apsk[177] = gr_complex(0.7345,
++                                         0.8743);
++         m_256apsk[178] = gr_complex(-0.6150,
++                                         0.7441);
++         m_256apsk[179] = gr_complex(-0.7345,
++                                         0.8743);
++         m_256apsk[180] = gr_complex(0.4932,
++                                         0.6301);
++         m_256apsk[181] = gr_complex(0.3620,
++                                         0.5258);
++         m_256apsk[182] = gr_complex(-0.4932,
++                                         0.6301);
++         m_256apsk[183] = gr_complex(-0.3620,
++                                         0.5258);
++         m_256apsk[184] = gr_complex(0.6150,
++                                         -0.7441);
++         m_256apsk[185] = gr_complex(0.7345,
++                                         -0.8743);
++         m_256apsk[186] = gr_complex(-0.6150,
++                                         -0.7441);
++         m_256apsk[187] = gr_complex(-0.7345,
++                                         -0.8743);
++         m_256apsk[188] = gr_complex(0.4932,
++                                         -0.6301);
++         m_256apsk[189] = gr_complex(0.3620,
++                                         -0.5258);
++         m_256apsk[190] = gr_complex(-0.4932,
++                                         -0.6301);
++         m_256apsk[191] = gr_complex(-0.3620,
++                                         -0.5258);
++         m_256apsk[192] = gr_complex(0.4866,
++                                         1.5660);
++         m_256apsk[193] = gr_complex(0.4068,
++                                         1.3027);
++         m_256apsk[194] = gr_complex(-0.4866,
++                                         1.5660);
++         m_256apsk[195] = gr_complex(-0.4068,
++                                         1.3027);
++         m_256apsk[196] = gr_complex(0.0732,
++                                         0.0899);
++         m_256apsk[197] = gr_complex(0.0877,
++                                         0.4997);
++         m_256apsk[198] = gr_complex(-0.0732,
++                                         0.0899);
++         m_256apsk[199] = gr_complex(-0.0877,
++                                         0.4997);
++         m_256apsk[200] = gr_complex(0.4866,
++                                         -1.5660);
++         m_256apsk[201] = gr_complex(0.4068,
++                                         -1.3027);
++         m_256apsk[202] = gr_complex(-0.4866,
++                                         -1.5660);
++         m_256apsk[203] = gr_complex(-0.4068,
++                                         -1.3027);
++         m_256apsk[204] = gr_complex(0.0732,
++                                         -0.0899);
++         m_256apsk[205] = gr_complex(0.0877,
++                                         -0.4997);
++         m_256apsk[206] = gr_complex(-0.0732,
++                                         -0.0899);
++         m_256apsk[207] = gr_complex(-0.0877,
++                                         -0.4997);
++         m_256apsk[208] = gr_complex(0.2927,
++                                         0.9409);
++         m_256apsk[209] = gr_complex(0.3446,
++                                         1.1023);
++         m_256apsk[210] = gr_complex(-0.2927,
++                                         0.9409);
++         m_256apsk[211] = gr_complex(-0.3446,
++                                         1.1023);
++         m_256apsk[212] = gr_complex(0.2350,
++                                         0.7945);
++         m_256apsk[213] = gr_complex(0.1670,
++                                         0.6529);
++         m_256apsk[214] = gr_complex(-0.2350,
++                                         0.7945);
++         m_256apsk[215] = gr_complex(-0.1670,
++                                         0.6529);
++         m_256apsk[216] = gr_complex(0.2927,
++                                         -0.9409);
++         m_256apsk[217] = gr_complex(0.3446,
++                                         -1.1023);
++         m_256apsk[218] = gr_complex(-0.2927,
++                                         -0.9409);
++         m_256apsk[219] = gr_complex(-0.3446,
++                                         -1.1023);
++         m_256apsk[220] = gr_complex(0.2350,
++                                         -0.7945);
++         m_256apsk[221] = gr_complex(0.1670,
++                                         -0.6529);
++         m_256apsk[222] = gr_complex(-0.2350,
++                                         -0.7945);
++         m_256apsk[223] = gr_complex(-0.1670,
++                                         -0.6529);
++         m_256apsk[224] = gr_complex(0.7867,
++                                         1.4356);
++         m_256apsk[225] = gr_complex(0.6561,
++                                         1.1927);
++         m_256apsk[226] = gr_complex(-0.7867,
++                                         1.4356);
++         m_256apsk[227] = gr_complex(-0.6561,
++                                         1.1927);
++         m_256apsk[228] = gr_complex(0.0947,
++                                         0.2451);
++         m_256apsk[229] = gr_complex(0.1865,
++                                         0.4121);
++         m_256apsk[230] = gr_complex(-0.0947,
++                                         0.2451);
++         m_256apsk[231] = gr_complex(-0.1865,
++                                         0.4121);
++         m_256apsk[232] = gr_complex(0.7867,
++                                         -1.4356);
++         m_256apsk[233] = gr_complex(0.6561,
++                                         -1.1927);
++         m_256apsk[234] = gr_complex(-0.7867,
++                                         -1.4356);
++         m_256apsk[235] = gr_complex(-0.6561,
++                                         -1.1927);
++         m_256apsk[236] = gr_complex(0.0947,
++                                         -0.2451);
++         m_256apsk[237] = gr_complex(0.1865,
++                                         -0.4121);
++         m_256apsk[238] = gr_complex(-0.0947,
++                                         -0.2451);
++         m_256apsk[239] = gr_complex(-0.1865,
++                                         -0.4121);
++         m_256apsk[240] = gr_complex(0.4677,
++                                         0.8579);
++         m_256apsk[241] = gr_complex(0.5537,
++                                         1.0081);
++         m_256apsk[242] = gr_complex(-0.4677,
++                                         0.8579);
++         m_256apsk[243] = gr_complex(-0.5537,
++                                         1.0081);
++         m_256apsk[244] = gr_complex(0.3893,
++                                         0.7143);
++         m_256apsk[245] = gr_complex(0.3110,
++                                         0.5686);
++         m_256apsk[246] = gr_complex(-0.3893,
++                                         0.7143);
++         m_256apsk[247] = gr_complex(-0.3110,
++                                         0.5686);
++         m_256apsk[248] = gr_complex(0.4677,
++                                         -0.8579);
++         m_256apsk[249] = gr_complex(0.5537,
++                                         -1.0081);
++         m_256apsk[250] = gr_complex(-0.4677,
++                                         -0.8579);
++         m_256apsk[251] = gr_complex(-0.5537,
++                                         -1.0081);
++         m_256apsk[252] = gr_complex(0.3893,
++                                         -0.7143);
++         m_256apsk[253] = gr_complex(0.3110,
++                                         -0.5686);
++         m_256apsk[254] = gr_complex(-0.3893,
++                                         -0.7143);
++         m_256apsk[255] = gr_complex(-0.3110,
++                                         -0.5686);
++         for (int i = 0; i < 256; i++)
++                {
++                 m_256apsk[i] /= 1.6329;
++                }
++         }
++         else
++         {
++         r8 = m;
++         switch(rate)
++                {
++                case gr::dvbs2::C116_180:
++                case gr::dvbs2::C124_180:
++                 r1 = r8 / 6.536;
++                 r7 = r1 * 5.078;
++                 r6 = r1 * 4.235;
++                 r5 = r1 * 3.569;
++                 r4 = r1 * 2.98;
++                 r3 = r1 * 2.405;
++                 r2 = r1 * 1.791;
++                 break;
++                case gr::dvbs2::C128_180:
++                 r1 = r8 / 5.4;
++                 r7 = r1 * 4.6;
++                 r6 = r1 * 4.045;
++                 r5 = r1 * 3.579;
++                 r4 = r1 * 2.986;
++                 r3 = r1 * 2.409;
++                 r2 = r1 * 1.794;
++                 break;
++                case gr::dvbs2::C135_180:
++                 r1 = r8 / 5.2;
++                 r7 = r1 * 4.5;
++                 r6 = r1 * 4.045;
++                 r5 = r1 * 3.579;
++                 r4 = r1 * 2.986;
++                 r3 = r1 * 2.409;
++                 r2 = r1 * 1.794;
++                 break;
++                default:
++                 r1 = 0;
++                 r2 = 0;
++                 r3 = 0;
++                 r4 = 0;
++                 r5 = 0;
++                 r6 = 0;
++                 r7 = 0;
++                 break;
++                }
++         m_256apsk[0] = gr_complex((r1 * cos(M_PI / 32.0)),
++                                        (r1 * sin(M_PI / 32.0)));
++         m_256apsk[1] = gr_complex((r1 * cos(3 * M_PI / 32.0)),
++                                        (r1 * sin(3 * M_PI / 32.0)));
++         m_256apsk[2] = gr_complex((r1 * cos(7 * M_PI / 32.0)),
++                                        (r1 * sin(7 * M_PI / 32.0)));
++         m_256apsk[3] = gr_complex((r1 * cos(5 * M_PI / 32.0)),
++                                        (r1 * sin(5 * M_PI / 32.0)));
++         m_256apsk[4] = gr_complex((r1 * cos(15 * M_PI / 32.0)),
++                                        (r1 * sin(15 * M_PI / 32.0)));
++         m_256apsk[5] = gr_complex((r1 * cos(13 * M_PI / 32.0)),
++                                        (r1 * sin(13 * M_PI / 32.0)));
++         m_256apsk[6] = gr_complex((r1 * cos(9 * M_PI / 32.0)),
++                                        (r1 * sin(9 * M_PI / 32.0)));
++         m_256apsk[7] = gr_complex((r1 * cos(11 * M_PI / 32.0)),
++                                        (r1 * sin(11 * M_PI / 32.0)));
++         m_256apsk[8] = gr_complex((r1 * cos(31 * M_PI / 32.0)),
++                                        (r1 * sin(31 * M_PI / 32.0)));
++         m_256apsk[9] = gr_complex((r1 * cos(29 * M_PI / 32.0)),
++                                        (r1 * sin(29 * M_PI / 32.0)));
++         m_256apsk[10] = gr_complex((r1 * cos(25 * M_PI / 32.0)),
++                                         (r1 * sin(25 * M_PI / 32.0)));
++         m_256apsk[11] = gr_complex((r1 * cos(27 * M_PI / 32.0)),
++                                         (r1 * sin(27 * M_PI / 32.0)));
++         m_256apsk[12] = gr_complex((r1 * cos(17 * M_PI / 32.0)),
++                                         (r1 * sin(17 * M_PI / 32.0)));
++         m_256apsk[13] = gr_complex((r1 * cos(19 * M_PI / 32.0)),
++                                         (r1 * sin(19 * M_PI / 32.0)));
++         m_256apsk[14] = gr_complex((r1 * cos(23 * M_PI / 32.0)),
++                                         (r1 * sin(23 * M_PI / 32.0)));
++         m_256apsk[15] = gr_complex((r1 * cos(21 * M_PI / 32.0)),
++                                         (r1 * sin(21 * M_PI / 32.0)));
++         m_256apsk[16] = gr_complex((r1 * cos(-1 * M_PI / 32.0)),
++                                         (r1 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[17] = gr_complex((r1 * cos(-3 * M_PI / 32.0)),
++                                         (r1 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[18] = gr_complex((r1 * cos(-7 * M_PI / 32.0)),
++                                         (r1 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[19] = gr_complex((r1 * cos(-5 * M_PI / 32.0)),
++                                         (r1 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[20] = gr_complex((r1 * cos(-15 * M_PI / 32.0)),
++                                         (r1 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[21] = gr_complex((r1 * cos(-13 * M_PI / 32.0)),
++                                         (r1 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[22] = gr_complex((r1 * cos(-9 * M_PI / 32.0)),
++                                         (r1 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[23] = gr_complex((r1 * cos(-11 * M_PI / 32.0)),
++                                         (r1 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[24] = gr_complex((r1 * cos(33 * M_PI / 32.0)),
++                                         (r1 * sin(33 * M_PI / 32.0)));
++         m_256apsk[25] = gr_complex((r1 * cos(35 * M_PI / 32.0)),
++                                         (r1 * sin(35 * M_PI / 32.0)));
++         m_256apsk[26] = gr_complex((r1 * cos(39 * M_PI / 32.0)),
++                                         (r1 * sin(39 * M_PI / 32.0)));
++         m_256apsk[27] = gr_complex((r1 * cos(37 * M_PI / 32.0)),
++                                         (r1 * sin(37 * M_PI / 32.0)));
++         m_256apsk[28] = gr_complex((r1 * cos(47 * M_PI / 32.0)),
++                                         (r1 * sin(47 * M_PI / 32.0)));
++         m_256apsk[29] = gr_complex((r1 * cos(45 * M_PI / 32.0)),
++                                         (r1 * sin(45 * M_PI / 32.0)));
++         m_256apsk[30] = gr_complex((r1 * cos(41 * M_PI / 32.0)),
++                                         (r1 * sin(41 * M_PI / 32.0)));
++         m_256apsk[31] = gr_complex((r1 * cos(43 * M_PI / 32.0)),
++                                         (r1 * sin(43 * M_PI / 32.0)));
++         m_256apsk[32] = gr_complex((r2 * cos(M_PI / 32.0)),
++                                         (r2 * sin(M_PI / 32.0)));
++         m_256apsk[33] = gr_complex((r2 * cos(3 * M_PI / 32.0)),
++                                         (r2 * sin(3 * M_PI / 32.0)));
++         m_256apsk[34] = gr_complex((r2 * cos(7 * M_PI / 32.0)),
++                                         (r2 * sin(7 * M_PI / 32.0)));
++         m_256apsk[35] = gr_complex((r2 * cos(5 * M_PI / 32.0)),
++                                         (r2 * sin(5 * M_PI / 32.0)));
++         m_256apsk[36] = gr_complex((r2 * cos(15 * M_PI / 32.0)),
++                                         (r2 * sin(15 * M_PI / 32.0)));
++         m_256apsk[37] = gr_complex((r2 * cos(13 * M_PI / 32.0)),
++                                         (r2 * sin(13 * M_PI / 32.0)));
++         m_256apsk[38] = gr_complex((r2 * cos(9 * M_PI / 32.0)),
++                                         (r2 * sin(9 * M_PI / 32.0)));
++         m_256apsk[39] = gr_complex((r2 * cos(11 * M_PI / 32.0)),
++                                         (r2 * sin(11 * M_PI / 32.0)));
++         m_256apsk[40] = gr_complex((r2 * cos(31 * M_PI / 32.0)),
++                                         (r2 * sin(31 * M_PI / 32.0)));
++         m_256apsk[41] = gr_complex((r2 * cos(29 * M_PI / 32.0)),
++                                         (r2 * sin(29 * M_PI / 32.0)));
++         m_256apsk[42] = gr_complex((r2 * cos(25 * M_PI / 32.0)),
++                                         (r2 * sin(25 * M_PI / 32.0)));
++         m_256apsk[43] = gr_complex((r2 * cos(27 * M_PI / 32.0)),
++                                         (r2 * sin(27 * M_PI / 32.0)));
++         m_256apsk[44] = gr_complex((r2 * cos(17 * M_PI / 32.0)),
++                                         (r2 * sin(17 * M_PI / 32.0)));
++         m_256apsk[45] = gr_complex((r2 * cos(19 * M_PI / 32.0)),
++                                         (r2 * sin(19 * M_PI / 32.0)));
++         m_256apsk[46] = gr_complex((r2 * cos(23 * M_PI / 32.0)),
++                                         (r2 * sin(23 * M_PI / 32.0)));
++         m_256apsk[47] = gr_complex((r2 * cos(21 * M_PI / 32.0)),
++                                         (r2 * sin(21 * M_PI / 32.0)));
++         m_256apsk[48] = gr_complex((r2 * cos(-1 * M_PI / 32.0)),
++                                         (r2 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[49] = gr_complex((r2 * cos(-3 * M_PI / 32.0)),
++                                         (r2 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[50] = gr_complex((r2 * cos(-7 * M_PI / 32.0)),
++                                         (r2 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[51] = gr_complex((r2 * cos(-5 * M_PI / 32.0)),
++                                         (r2 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[52] = gr_complex((r2 * cos(-15 * M_PI / 32.0)),
++                                         (r2 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[53] = gr_complex((r2 * cos(-13 * M_PI / 32.0)),
++                                         (r2 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[54] = gr_complex((r2 * cos(-9 * M_PI / 32.0)),
++                                         (r2 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[55] = gr_complex((r2 * cos(-11 * M_PI / 32.0)),
++                                         (r2 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[56] = gr_complex((r2 * cos(33 * M_PI / 32.0)),
++                                         (r2 * sin(33 * M_PI / 32.0)));
++         m_256apsk[57] = gr_complex((r2 * cos(35 * M_PI / 32.0)),
++                                         (r2 * sin(35 * M_PI / 32.0)));
++         m_256apsk[58] = gr_complex((r2 * cos(39 * M_PI / 32.0)),
++                                         (r2 * sin(39 * M_PI / 32.0)));
++         m_256apsk[59] = gr_complex((r2 * cos(37 * M_PI / 32.0)),
++                                         (r2 * sin(37 * M_PI / 32.0)));
++         m_256apsk[60] = gr_complex((r2 * cos(47 * M_PI / 32.0)),
++                                         (r2 * sin(47 * M_PI / 32.0)));
++         m_256apsk[61] = gr_complex((r2 * cos(45 * M_PI / 32.0)),
++                                         (r2 * sin(45 * M_PI / 32.0)));
++         m_256apsk[62] = gr_complex((r2 * cos(41 * M_PI / 32.0)),
++                                         (r2 * sin(41 * M_PI / 32.0)));
++         m_256apsk[63] = gr_complex((r2 * cos(43 * M_PI / 32.0)),
++                                         (r2 * sin(43 * M_PI / 32.0)));
++         m_256apsk[64] = gr_complex((r4 * cos(M_PI / 32.0)),
++                                         (r4 * sin(M_PI / 32.0)));
++         m_256apsk[65] = gr_complex((r4 * cos(3 * M_PI / 32.0)),
++                                         (r4 * sin(3 * M_PI / 32.0)));
++         m_256apsk[66] = gr_complex((r4 * cos(7 * M_PI / 32.0)),
++                                         (r4 * sin(7 * M_PI / 32.0)));
++         m_256apsk[67] = gr_complex((r4 * cos(5 * M_PI / 32.0)),
++                                         (r4 * sin(5 * M_PI / 32.0)));
++         m_256apsk[68] = gr_complex((r4 * cos(15 * M_PI / 32.0)),
++                                         (r4 * sin(15 * M_PI / 32.0)));
++         m_256apsk[69] = gr_complex((r4 * cos(13 * M_PI / 32.0)),
++                                         (r4 * sin(13 * M_PI / 32.0)));
++         m_256apsk[70] = gr_complex((r4 * cos(9 * M_PI / 32.0)),
++                                         (r4 * sin(9 * M_PI / 32.0)));
++         m_256apsk[71] = gr_complex((r4 * cos(11 * M_PI / 32.0)),
++                                         (r4 * sin(11 * M_PI / 32.0)));
++         m_256apsk[72] = gr_complex((r4 * cos(31 * M_PI / 32.0)),
++                                         (r4 * sin(31 * M_PI / 32.0)));
++         m_256apsk[73] = gr_complex((r4 * cos(29 * M_PI / 32.0)),
++                                         (r4 * sin(29 * M_PI / 32.0)));
++         m_256apsk[74] = gr_complex((r4 * cos(25 * M_PI / 32.0)),
++                                         (r4 * sin(25 * M_PI / 32.0)));
++         m_256apsk[75] = gr_complex((r4 * cos(27 * M_PI / 32.0)),
++                                         (r4 * sin(27 * M_PI / 32.0)));
++         m_256apsk[76] = gr_complex((r4 * cos(17 * M_PI / 32.0)),
++                                         (r4 * sin(17 * M_PI / 32.0)));
++         m_256apsk[77] = gr_complex((r4 * cos(19 * M_PI / 32.0)),
++                                         (r4 * sin(19 * M_PI / 32.0)));
++         m_256apsk[78] = gr_complex((r4 * cos(23 * M_PI / 32.0)),
++                                         (r4 * sin(23 * M_PI / 32.0)));
++         m_256apsk[79] = gr_complex((r4 * cos(21 * M_PI / 32.0)),
++                                         (r4 * sin(21 * M_PI / 32.0)));
++         m_256apsk[80] = gr_complex((r4 * cos(-1 * M_PI / 32.0)),
++                                         (r4 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[81] = gr_complex((r4 * cos(-3 * M_PI / 32.0)),
++                                         (r4 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[82] = gr_complex((r4 * cos(-7 * M_PI / 32.0)),
++                                         (r4 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[83] = gr_complex((r4 * cos(-5 * M_PI / 32.0)),
++                                         (r4 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[84] = gr_complex((r4 * cos(-15 * M_PI / 32.0)),
++                                         (r4 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[85] = gr_complex((r4 * cos(-13 * M_PI / 32.0)),
++                                         (r4 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[86] = gr_complex((r4 * cos(-9 * M_PI / 32.0)),
++                                         (r4 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[87] = gr_complex((r4 * cos(-11 * M_PI / 32.0)),
++                                         (r4 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[88] = gr_complex((r4 * cos(33 * M_PI / 32.0)),
++                                         (r4 * sin(33 * M_PI / 32.0)));
++         m_256apsk[89] = gr_complex((r4 * cos(35 * M_PI / 32.0)),
++                                         (r4 * sin(35 * M_PI / 32.0)));
++         m_256apsk[90] = gr_complex((r4 * cos(39 * M_PI / 32.0)),
++                                         (r4 * sin(39 * M_PI / 32.0)));
++         m_256apsk[91] = gr_complex((r4 * cos(37 * M_PI / 32.0)),
++                                         (r4 * sin(37 * M_PI / 32.0)));
++         m_256apsk[92] = gr_complex((r4 * cos(47 * M_PI / 32.0)),
++                                         (r4 * sin(47 * M_PI / 32.0)));
++         m_256apsk[93] = gr_complex((r4 * cos(45 * M_PI / 32.0)),
++                                         (r4 * sin(45 * M_PI / 32.0)));
++         m_256apsk[94] = gr_complex((r4 * cos(41 * M_PI / 32.0)),
++                                         (r4 * sin(41 * M_PI / 32.0)));
++         m_256apsk[95] = gr_complex((r4 * cos(43 * M_PI / 32.0)),
++                                         (r4 * sin(43 * M_PI / 32.0)));
++         m_256apsk[96] = gr_complex((r3 * cos(M_PI / 32.0)),
++                                         (r3 * sin(M_PI / 32.0)));
++         m_256apsk[97] = gr_complex((r3 * cos(3 * M_PI / 32.0)),
++                                         (r3 * sin(3 * M_PI / 32.0)));
++         m_256apsk[98] = gr_complex((r3 * cos(7 * M_PI / 32.0)),
++                                         (r3 * sin(7 * M_PI / 32.0)));
++         m_256apsk[99] = gr_complex((r3 * cos(5 * M_PI / 32.0)),
++                                         (r3 * sin(5 * M_PI / 32.0)));
++         m_256apsk[100] = gr_complex((r3 * cos(15 * M_PI / 32.0)),
++                                         (r3 * sin(15 * M_PI / 32.0)));
++         m_256apsk[101] = gr_complex((r3 * cos(13 * M_PI / 32.0)),
++                                         (r3 * sin(13 * M_PI / 32.0)));
++         m_256apsk[102] = gr_complex((r3 * cos(9 * M_PI / 32.0)),
++                                         (r3 * sin(9 * M_PI / 32.0)));
++         m_256apsk[103] = gr_complex((r3 * cos(11 * M_PI / 32.0)),
++                                         (r3 * sin(11 * M_PI / 32.0)));
++         m_256apsk[104] = gr_complex((r3 * cos(31 * M_PI / 32.0)),
++                                         (r3 * sin(31 * M_PI / 32.0)));
++         m_256apsk[105] = gr_complex((r3 * cos(29 * M_PI / 32.0)),
++                                         (r3 * sin(29 * M_PI / 32.0)));
++         m_256apsk[106] = gr_complex((r3 * cos(25 * M_PI / 32.0)),
++                                         (r3 * sin(25 * M_PI / 32.0)));
++         m_256apsk[107] = gr_complex((r3 * cos(27 * M_PI / 32.0)),
++                                         (r3 * sin(27 * M_PI / 32.0)));
++         m_256apsk[108] = gr_complex((r3 * cos(17 * M_PI / 32.0)),
++                                         (r3 * sin(17 * M_PI / 32.0)));
++         m_256apsk[109] = gr_complex((r3 * cos(19 * M_PI / 32.0)),
++                                         (r3 * sin(19 * M_PI / 32.0)));
++         m_256apsk[110] = gr_complex((r3 * cos(23 * M_PI / 32.0)),
++                                         (r3 * sin(23 * M_PI / 32.0)));
++         m_256apsk[111] = gr_complex((r3 * cos(21 * M_PI / 32.0)),
++                                         (r3 * sin(21 * M_PI / 32.0)));
++         m_256apsk[112] = gr_complex((r3 * cos(-1 * M_PI / 32.0)),
++                                         (r3 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[113] = gr_complex((r3 * cos(-3 * M_PI / 32.0)),
++                                         (r3 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[114] = gr_complex((r3 * cos(-7 * M_PI / 32.0)),
++                                         (r3 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[115] = gr_complex((r3 * cos(-5 * M_PI / 32.0)),
++                                         (r3 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[116] = gr_complex((r3 * cos(-15 * M_PI / 32.0)),
++                                         (r3 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[117] = gr_complex((r3 * cos(-13 * M_PI / 32.0)),
++                                         (r3 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[118] = gr_complex((r3 * cos(-9 * M_PI / 32.0)),
++                                         (r3 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[119] = gr_complex((r3 * cos(-11 * M_PI / 32.0)),
++                                         (r3 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[120] = gr_complex((r3 * cos(33 * M_PI / 32.0)),
++                                         (r3 * sin(33 * M_PI / 32.0)));
++         m_256apsk[121] = gr_complex((r3 * cos(35 * M_PI / 32.0)),
++                                         (r3 * sin(35 * M_PI / 32.0)));
++         m_256apsk[122] = gr_complex((r3 * cos(39 * M_PI / 32.0)),
++                                         (r3 * sin(39 * M_PI / 32.0)));
++         m_256apsk[123] = gr_complex((r3 * cos(37 * M_PI / 32.0)),
++                                         (r3 * sin(37 * M_PI / 32.0)));
++         m_256apsk[124] = gr_complex((r3 * cos(47 * M_PI / 32.0)),
++                                         (r3 * sin(47 * M_PI / 32.0)));
++         m_256apsk[125] = gr_complex((r3 * cos(45 * M_PI / 32.0)),
++                                         (r3 * sin(45 * M_PI / 32.0)));
++         m_256apsk[126] = gr_complex((r3 * cos(41 * M_PI / 32.0)),
++                                         (r3 * sin(41 * M_PI / 32.0)));
++         m_256apsk[127] = gr_complex((r3 * cos(43 * M_PI / 32.0)),
++                                         (r3 * sin(43 * M_PI / 32.0)));
++         m_256apsk[128] = gr_complex((r8 * cos(M_PI / 32.0)),
++                                         (r8 * sin(M_PI / 32.0)));
++         m_256apsk[129] = gr_complex((r8 * cos(3 * M_PI / 32.0)),
++                                         (r8 * sin(3 * M_PI / 32.0)));
++         m_256apsk[130] = gr_complex((r8 * cos(7 * M_PI / 32.0)),
++                                         (r8 * sin(7 * M_PI / 32.0)));
++         m_256apsk[131] = gr_complex((r8 * cos(5 * M_PI / 32.0)),
++                                         (r8 * sin(5 * M_PI / 32.0)));
++         m_256apsk[132] = gr_complex((r8 * cos(15 * M_PI / 32.0)),
++                                         (r8 * sin(15 * M_PI / 32.0)));
++         m_256apsk[133] = gr_complex((r8 * cos(13 * M_PI / 32.0)),
++                                         (r8 * sin(13 * M_PI / 32.0)));
++         m_256apsk[134] = gr_complex((r8 * cos(9 * M_PI / 32.0)),
++                                         (r8 * sin(9 * M_PI / 32.0)));
++         m_256apsk[135] = gr_complex((r8 * cos(11 * M_PI / 32.0)),
++                                         (r8 * sin(11 * M_PI / 32.0)));
++         m_256apsk[136] = gr_complex((r8 * cos(31 * M_PI / 32.0)),
++                                         (r8 * sin(31 * M_PI / 32.0)));
++         m_256apsk[137] = gr_complex((r8 * cos(29 * M_PI / 32.0)),
++                                         (r8 * sin(29 * M_PI / 32.0)));
++         m_256apsk[138] = gr_complex((r8 * cos(25 * M_PI / 32.0)),
++                                         (r8 * sin(25 * M_PI / 32.0)));
++         m_256apsk[139] = gr_complex((r8 * cos(27 * M_PI / 32.0)),
++                                         (r8 * sin(27 * M_PI / 32.0)));
++         m_256apsk[140] = gr_complex((r8 * cos(17 * M_PI / 32.0)),
++                                         (r8 * sin(17 * M_PI / 32.0)));
++         m_256apsk[141] = gr_complex((r8 * cos(19 * M_PI / 32.0)),
++                                         (r8 * sin(19 * M_PI / 32.0)));
++         m_256apsk[142] = gr_complex((r8 * cos(23 * M_PI / 32.0)),
++                                         (r8 * sin(23 * M_PI / 32.0)));
++         m_256apsk[143] = gr_complex((r8 * cos(21 * M_PI / 32.0)),
++                                         (r8 * sin(21 * M_PI / 32.0)));
++         m_256apsk[144] = gr_complex((r8 * cos(-1 * M_PI / 32.0)),
++                                         (r8 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[145] = gr_complex((r8 * cos(-3 * M_PI / 32.0)),
++                                         (r8 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[146] = gr_complex((r8 * cos(-7 * M_PI / 32.0)),
++                                         (r8 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[147] = gr_complex((r8 * cos(-5 * M_PI / 32.0)),
++                                         (r8 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[148] = gr_complex((r8 * cos(-15 * M_PI / 32.0)),
++                                         (r8 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[149] = gr_complex((r8 * cos(-13 * M_PI / 32.0)),
++                                         (r8 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[150] = gr_complex((r8 * cos(-9 * M_PI / 32.0)),
++                                         (r8 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[151] = gr_complex((r8 * cos(-11 * M_PI / 32.0)),
++                                         (r8 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[152] = gr_complex((r8 * cos(33 * M_PI / 32.0)),
++                                         (r8 * sin(33 * M_PI / 32.0)));
++         m_256apsk[153] = gr_complex((r8 * cos(35 * M_PI / 32.0)),
++                                         (r8 * sin(35 * M_PI / 32.0)));
++         m_256apsk[154] = gr_complex((r8 * cos(39 * M_PI / 32.0)),
++                                         (r8 * sin(39 * M_PI / 32.0)));
++         m_256apsk[155] = gr_complex((r8 * cos(37 * M_PI / 32.0)),
++                                         (r8 * sin(37 * M_PI / 32.0)));
++         m_256apsk[156] = gr_complex((r8 * cos(47 * M_PI / 32.0)),
++                                         (r8 * sin(47 * M_PI / 32.0)));
++         m_256apsk[157] = gr_complex((r8 * cos(45 * M_PI / 32.0)),
++                                         (r8 * sin(45 * M_PI / 32.0)));
++         m_256apsk[158] = gr_complex((r8 * cos(41 * M_PI / 32.0)),
++                                         (r8 * sin(41 * M_PI / 32.0)));
++         m_256apsk[159] = gr_complex((r8 * cos(43 * M_PI / 32.0)),
++                                         (r8 * sin(43 * M_PI / 32.0)));
++         m_256apsk[160] = gr_complex((r7 * cos(M_PI / 32.0)),
++                                         (r7 * sin(M_PI / 32.0)));
++         m_256apsk[161] = gr_complex((r7 * cos(3 * M_PI / 32.0)),
++                                         (r7 * sin(3 * M_PI / 32.0)));
++         m_256apsk[162] = gr_complex((r7 * cos(7 * M_PI / 32.0)),
++                                         (r7 * sin(7 * M_PI / 32.0)));
++         m_256apsk[163] = gr_complex((r7 * cos(5 * M_PI / 32.0)),
++                                         (r7 * sin(5 * M_PI / 32.0)));
++         m_256apsk[164] = gr_complex((r7 * cos(15 * M_PI / 32.0)),
++                                         (r7 * sin(15 * M_PI / 32.0)));
++         m_256apsk[165] = gr_complex((r7 * cos(13 * M_PI / 32.0)),
++                                         (r7 * sin(13 * M_PI / 32.0)));
++         m_256apsk[166] = gr_complex((r7 * cos(9 * M_PI / 32.0)),
++                                         (r7 * sin(9 * M_PI / 32.0)));
++         m_256apsk[167] = gr_complex((r7 * cos(11 * M_PI / 32.0)),
++                                         (r7 * sin(11 * M_PI / 32.0)));
++         m_256apsk[168] = gr_complex((r7 * cos(31 * M_PI / 32.0)),
++                                         (r7 * sin(31 * M_PI / 32.0)));
++         m_256apsk[169] = gr_complex((r7 * cos(29 * M_PI / 32.0)),
++                                         (r7 * sin(29 * M_PI / 32.0)));
++         m_256apsk[170] = gr_complex((r7 * cos(25 * M_PI / 32.0)),
++                                         (r7 * sin(25 * M_PI / 32.0)));
++         m_256apsk[171] = gr_complex((r7 * cos(27 * M_PI / 32.0)),
++                                         (r7 * sin(27 * M_PI / 32.0)));
++         m_256apsk[172] = gr_complex((r7 * cos(17 * M_PI / 32.0)),
++                                         (r7 * sin(17 * M_PI / 32.0)));
++         m_256apsk[173] = gr_complex((r7 * cos(19 * M_PI / 32.0)),
++                                         (r7 * sin(19 * M_PI / 32.0)));
++         m_256apsk[174] = gr_complex((r7 * cos(23 * M_PI / 32.0)),
++                                         (r7 * sin(23 * M_PI / 32.0)));
++         m_256apsk[175] = gr_complex((r7 * cos(21 * M_PI / 32.0)),
++                                         (r7 * sin(21 * M_PI / 32.0)));
++         m_256apsk[176] = gr_complex((r7 * cos(-1 * M_PI / 32.0)),
++                                         (r7 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[177] = gr_complex((r7 * cos(-3 * M_PI / 32.0)),
++                                         (r7 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[178] = gr_complex((r7 * cos(-7 * M_PI / 32.0)),
++                                         (r7 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[179] = gr_complex((r7 * cos(-5 * M_PI / 32.0)),
++                                         (r7 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[180] = gr_complex((r7 * cos(-15 * M_PI / 32.0)),
++                                         (r7 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[181] = gr_complex((r7 * cos(-13 * M_PI / 32.0)),
++                                         (r7 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[182] = gr_complex((r7 * cos(-9 * M_PI / 32.0)),
++                                         (r7 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[183] = gr_complex((r7 * cos(-11 * M_PI / 32.0)),
++                                         (r7 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[184] = gr_complex((r7 * cos(33 * M_PI / 32.0)),
++                                         (r7 * sin(33 * M_PI / 32.0)));
++         m_256apsk[185] = gr_complex((r7 * cos(35 * M_PI / 32.0)),
++                                         (r7 * sin(35 * M_PI / 32.0)));
++         m_256apsk[186] = gr_complex((r7 * cos(39 * M_PI / 32.0)),
++                                         (r7 * sin(39 * M_PI / 32.0)));
++         m_256apsk[187] = gr_complex((r7 * cos(37 * M_PI / 32.0)),
++                                         (r7 * sin(37 * M_PI / 32.0)));
++         m_256apsk[188] = gr_complex((r7 * cos(47 * M_PI / 32.0)),
++                                         (r7 * sin(47 * M_PI / 32.0)));
++         m_256apsk[189] = gr_complex((r7 * cos(45 * M_PI / 32.0)),
++                                         (r7 * sin(45 * M_PI / 32.0)));
++         m_256apsk[190] = gr_complex((r7 * cos(41 * M_PI / 32.0)),
++                                         (r7 * sin(41 * M_PI / 32.0)));
++         m_256apsk[191] = gr_complex((r7 * cos(43 * M_PI / 32.0)),
++                                         (r7 * sin(43 * M_PI / 32.0)));
++         m_256apsk[192] = gr_complex((r5 * cos(M_PI / 32.0)),
++                                         (r5 * sin(M_PI / 32.0)));
++         m_256apsk[193] = gr_complex((r5 * cos(3 * M_PI / 32.0)),
++                                         (r5 * sin(3 * M_PI / 32.0)));
++         m_256apsk[194] = gr_complex((r5 * cos(7 * M_PI / 32.0)),
++                                         (r5 * sin(7 * M_PI / 32.0)));
++         m_256apsk[195] = gr_complex((r5 * cos(5 * M_PI / 32.0)),
++                                         (r5 * sin(5 * M_PI / 32.0)));
++         m_256apsk[196] = gr_complex((r5 * cos(15 * M_PI / 32.0)),
++                                         (r5 * sin(15 * M_PI / 32.0)));
++         m_256apsk[197] = gr_complex((r5 * cos(13 * M_PI / 32.0)),
++                                         (r5 * sin(13 * M_PI / 32.0)));
++         m_256apsk[198] = gr_complex((r5 * cos(9 * M_PI / 32.0)),
++                                         (r5 * sin(9 * M_PI / 32.0)));
++         m_256apsk[199] = gr_complex((r5 * cos(11 * M_PI / 32.0)),
++                                         (r5 * sin(11 * M_PI / 32.0)));
++         m_256apsk[200] = gr_complex((r5 * cos(31 * M_PI / 32.0)),
++                                         (r5 * sin(31 * M_PI / 32.0)));
++         m_256apsk[201] = gr_complex((r5 * cos(29 * M_PI / 32.0)),
++                                         (r5 * sin(29 * M_PI / 32.0)));
++         m_256apsk[202] = gr_complex((r5 * cos(25 * M_PI / 32.0)),
++                                         (r5 * sin(25 * M_PI / 32.0)));
++         m_256apsk[203] = gr_complex((r5 * cos(27 * M_PI / 32.0)),
++                                         (r5 * sin(27 * M_PI / 32.0)));
++         m_256apsk[204] = gr_complex((r5 * cos(17 * M_PI / 32.0)),
++                                         (r5 * sin(17 * M_PI / 32.0)));
++         m_256apsk[205] = gr_complex((r5 * cos(19 * M_PI / 32.0)),
++                                         (r5 * sin(19 * M_PI / 32.0)));
++         m_256apsk[206] = gr_complex((r5 * cos(23 * M_PI / 32.0)),
++                                         (r5 * sin(23 * M_PI / 32.0)));
++         m_256apsk[207] = gr_complex((r5 * cos(21 * M_PI / 32.0)),
++                                         (r5 * sin(21 * M_PI / 32.0)));
++         m_256apsk[208] = gr_complex((r5 * cos(-1 * M_PI / 32.0)),
++                                         (r5 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[209] = gr_complex((r5 * cos(-3 * M_PI / 32.0)),
++                                         (r5 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[210] = gr_complex((r5 * cos(-7 * M_PI / 32.0)),
++                                         (r5 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[211] = gr_complex((r5 * cos(-5 * M_PI / 32.0)),
++                                         (r5 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[212] = gr_complex((r5 * cos(-15 * M_PI / 32.0)),
++                                         (r5 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[213] = gr_complex((r5 * cos(-13 * M_PI / 32.0)),
++                                         (r5 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[214] = gr_complex((r5 * cos(-9 * M_PI / 32.0)),
++                                         (r5 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[215] = gr_complex((r5 * cos(-11 * M_PI / 32.0)),
++                                         (r5 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[216] = gr_complex((r5 * cos(33 * M_PI / 32.0)),
++                                         (r5 * sin(33 * M_PI / 32.0)));
++         m_256apsk[217] = gr_complex((r5 * cos(35 * M_PI / 32.0)),
++                                         (r5 * sin(35 * M_PI / 32.0)));
++         m_256apsk[218] = gr_complex((r5 * cos(39 * M_PI / 32.0)),
++                                         (r5 * sin(39 * M_PI / 32.0)));
++         m_256apsk[219] = gr_complex((r5 * cos(37 * M_PI / 32.0)),
++                                         (r5 * sin(37 * M_PI / 32.0)));
++         m_256apsk[220] = gr_complex((r5 * cos(47 * M_PI / 32.0)),
++                                         (r5 * sin(47 * M_PI / 32.0)));
++         m_256apsk[221] = gr_complex((r5 * cos(45 * M_PI / 32.0)),
++                                         (r5 * sin(45 * M_PI / 32.0)));
++         m_256apsk[222] = gr_complex((r5 * cos(41 * M_PI / 32.0)),
++                                         (r5 * sin(41 * M_PI / 32.0)));
++         m_256apsk[223] = gr_complex((r5 * cos(43 * M_PI / 32.0)),
++                                         (r5 * sin(43 * M_PI / 32.0)));
++         m_256apsk[224] = gr_complex((r6 * cos(M_PI / 32.0)),
++                                         (r6 * sin(M_PI / 32.0)));
++         m_256apsk[225] = gr_complex((r6 * cos(3 * M_PI / 32.0)),
++                                         (r6 * sin(3 * M_PI / 32.0)));
++         m_256apsk[226] = gr_complex((r6 * cos(7 * M_PI / 32.0)),
++                                         (r6 * sin(7 * M_PI / 32.0)));
++         m_256apsk[227] = gr_complex((r6 * cos(5 * M_PI / 32.0)),
++                                         (r6 * sin(5 * M_PI / 32.0)));
++         m_256apsk[228] = gr_complex((r6 * cos(15 * M_PI / 32.0)),
++                                         (r6 * sin(15 * M_PI / 32.0)));
++         m_256apsk[229] = gr_complex((r6 * cos(13 * M_PI / 32.0)),
++                                         (r6 * sin(13 * M_PI / 32.0)));
++         m_256apsk[230] = gr_complex((r6 * cos(9 * M_PI / 32.0)),
++                                         (r6 * sin(9 * M_PI / 32.0)));
++         m_256apsk[231] = gr_complex((r6 * cos(11 * M_PI / 32.0)),
++                                         (r6 * sin(11 * M_PI / 32.0)));
++         m_256apsk[232] = gr_complex((r6 * cos(31 * M_PI / 32.0)),
++                                         (r6 * sin(31 * M_PI / 32.0)));
++         m_256apsk[233] = gr_complex((r6 * cos(29 * M_PI / 32.0)),
++                                         (r6 * sin(29 * M_PI / 32.0)));
++         m_256apsk[234] = gr_complex((r6 * cos(25 * M_PI / 32.0)),
++                                         (r6 * sin(25 * M_PI / 32.0)));
++         m_256apsk[235] = gr_complex((r6 * cos(27 * M_PI / 32.0)),
++                                         (r6 * sin(27 * M_PI / 32.0)));
++         m_256apsk[236] = gr_complex((r6 * cos(17 * M_PI / 32.0)),
++                                         (r6 * sin(17 * M_PI / 32.0)));
++         m_256apsk[237] = gr_complex((r6 * cos(19 * M_PI / 32.0)),
++                                         (r6 * sin(19 * M_PI / 32.0)));
++         m_256apsk[238] = gr_complex((r6 * cos(23 * M_PI / 32.0)),
++                                         (r6 * sin(23 * M_PI / 32.0)));
++         m_256apsk[239] = gr_complex((r6 * cos(21 * M_PI / 32.0)),
++                                         (r6 * sin(21 * M_PI / 32.0)));
++         m_256apsk[240] = gr_complex((r6 * cos(-1 * M_PI / 32.0)),
++                                         (r6 * sin(-1 * M_PI / 32.0)));
++         m_256apsk[241] = gr_complex((r6 * cos(-3 * M_PI / 32.0)),
++                                         (r6 * sin(-3 * M_PI / 32.0)));
++         m_256apsk[242] = gr_complex((r6 * cos(-7 * M_PI / 32.0)),
++                                         (r6 * sin(-7 * M_PI / 32.0)));
++         m_256apsk[243] = gr_complex((r6 * cos(-5 * M_PI / 32.0)),
++                                         (r6 * sin(-5 * M_PI / 32.0)));
++         m_256apsk[244] = gr_complex((r6 * cos(-15 * M_PI / 32.0)),
++                                         (r6 * sin(-15 * M_PI / 32.0)));
++         m_256apsk[245] = gr_complex((r6 * cos(-13 * M_PI / 32.0)),
++                                         (r6 * sin(-13 * M_PI / 32.0)));
++         m_256apsk[246] = gr_complex((r6 * cos(-9 * M_PI / 32.0)),
++                                         (r6 * sin(-9 * M_PI / 32.0)));
++         m_256apsk[247] = gr_complex((r6 * cos(-11 * M_PI / 32.0)),
++                                         (r6 * sin(-11 * M_PI / 32.0)));
++         m_256apsk[248] = gr_complex((r6 * cos(33 * M_PI / 32.0)),
++                                         (r6 * sin(33 * M_PI / 32.0)));
++         m_256apsk[249] = gr_complex((r6 * cos(35 * M_PI / 32.0)),
++                                         (r6 * sin(35 * M_PI / 32.0)));
++         m_256apsk[250] = gr_complex((r6 * cos(39 * M_PI / 32.0)),
++                                         (r6 * sin(39 * M_PI / 32.0)));
++         m_256apsk[251] = gr_complex((r6 * cos(37 * M_PI / 32.0)),
++                                         (r6 * sin(37 * M_PI / 32.0)));
++         m_256apsk[252] = gr_complex((r6 * cos(47 * M_PI / 32.0)),
++                                         (r6 * sin(47 * M_PI / 32.0)));
++         m_256apsk[253] = gr_complex((r6 * cos(45 * M_PI / 32.0)),
++                                         (r6 * sin(45 * M_PI / 32.0)));
++         m_256apsk[254] = gr_complex((r6 * cos(41 * M_PI / 32.0)),
++                                         (r6 * sin(41 * M_PI / 32.0)));
++         m_256apsk[255] = gr_complex((r6 * cos(43 * M_PI / 32.0)),
++                                         (r6 * sin(43 * M_PI / 32.0)));
++         }
++         break;
++        default:
++         m_qpsk[0] = gr_complex((r1 * cos(M_PI / 4.0)),
++                                 (r1 * sin(M_PI / 4.0)));
++         m_qpsk[1] = gr_complex((r1 * cos(7 * M_PI / 4.0)),
++                                 (r1 * sin(7 * M_PI / 4.0)));
++         m_qpsk[2] = gr_complex((r1 * cos(3 * M_PI / 4.0)),
++                                 (r1 * sin(3 * M_PI / 4.0)));
++         m_qpsk[3] = gr_complex((r1 * cos(5 * M_PI / 4.0)),
++                                 (r1 * sin(5 * M_PI / 4.0)));
++         break;
++        }
++ signal_constellation = constellation;
++ set_output_multiple(2);
+ }
+
+ /*
+@@ -2985,91 +2981,91 @@
+ void
+ modulator_bc_impl::forecast (int noutput_items, gr_vector_int &ninput_items_required)
+ {
+- ninput_items_required[0] = noutput_items;
++ ninput_items_required[0] = noutput_items;
+ }
+
+ int
+ modulator_bc_impl::general_work (int noutput_items,
+- gr_vector_int &ninput_items,
+- gr_vector_const_void_star &input_items,
+- gr_vector_void_star &output_items)
++                                 gr_vector_int &ninput_items,
++                                 gr_vector_const_void_star &input_items,
++                                 gr_vector_void_star &output_items)
+ {
+- const unsigned char *in = (const unsigned char *) input_items[0];
+- gr_complex *out = (gr_complex *) output_items[0];
+- int index;
++ const unsigned char *in = (const unsigned char *) input_items[0];
++ gr_complex *out = (gr_complex *) output_items[0];
++ int index;
+
+- switch (signal_constellation)
+- {
+- case gr::dvbs2::MOD_QPSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_qpsk[index & 0x3];
+- }
+- break;
+- case gr::dvbs2::MOD_8PSK:
+- case gr::dvbs2::MOD_8APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_8psk[index & 0x7];
+- }
+- break;
+- case gr::dvbs2::MOD_16APSK:
+- case gr::dvbs2::MOD_8_8APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_16apsk[index & 0xf];
+- }
+- break;
+- case gr::dvbs2::MOD_32APSK:
+- case gr::dvbs2::MOD_4_12_16APSK:
+- case gr::dvbs2::MOD_4_8_4_16APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_32apsk[index & 0x1f];
+- }
+- break;
+- case gr::dvbs2::MOD_64APSK:
+- case gr::dvbs2::MOD_8_16_20_20APSK:
+- case gr::dvbs2::MOD_4_12_20_28APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_64apsk[index & 0x3f];
+- }
+- break;
+- case gr::dvbs2::MOD_128APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_128apsk[index & 0x7f];
+- }
+- break;
+- case gr::dvbs2::MOD_256APSK:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_256apsk[index & 0xff];
+- }
+- break;
+- default:
+- for (int i = 0; i < noutput_items; i++)
+- {
+- index = *in++;
+- *out++ = m_qpsk[index & 0x3];
+- }
+- break;
+- }
++ switch (signal_constellation)
++        {
++        case gr::dvbs2::MOD_QPSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_qpsk[index & 0x3];
++         }
++         break;
++        case gr::dvbs2::MOD_8PSK:
++        case gr::dvbs2::MOD_8APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_8psk[index & 0x7];
++         }
++         break;
++        case gr::dvbs2::MOD_16APSK:
++        case gr::dvbs2::MOD_8_8APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_16apsk[index & 0xf];
++         }
++         break;
++        case gr::dvbs2::MOD_32APSK:
++        case gr::dvbs2::MOD_4_12_16APSK:
++        case gr::dvbs2::MOD_4_8_4_16APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_32apsk[index & 0x1f];
++         }
++         break;
++        case gr::dvbs2::MOD_64APSK:
++        case gr::dvbs2::MOD_8_16_20_20APSK:
++        case gr::dvbs2::MOD_4_12_20_28APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_64apsk[index & 0x3f];
++         }
++         break;
++        case gr::dvbs2::MOD_128APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_128apsk[index & 0x7f];
++         }
++         break;
++        case gr::dvbs2::MOD_256APSK:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_256apsk[index & 0xff];
++         }
++         break;
++        default:
++         for (int i = 0; i < noutput_items; i++)
++         {
++         index = *in++;
++         *out++ = m_qpsk[index & 0x3];
++         }
++         break;
++        }
+
+- // Tell runtime system how many input items we consumed on
+- // each input stream.
+- consume_each (noutput_items);
++ // Tell runtime system how many input items we consumed on
++ // each input stream.
++ consume_each (noutput_items);
+
+- // Tell runtime system how many output items we produced.
+- return noutput_items;
++ // Tell runtime system how many output items we produced.
++ return noutput_items;
+ }
+
+ } /* namespace dvbs2 */
</ins></span></pre></div>
<a id="trunkdportssciencegrdvbs2filespatchlib_physical_cc_implccdiff"></a>
<div class="addfile"><h4>Added: trunk/dports/science/gr-dvbs2/files/patch-lib_physical_cc_impl.cc.diff (0 => 131975)</h4>
<pre class="diff"><span>
<span class="info">--- trunk/dports/science/gr-dvbs2/files/patch-lib_physical_cc_impl.cc.diff         (rev 0)
+++ trunk/dports/science/gr-dvbs2/files/patch-lib_physical_cc_impl.cc.diff        2015-01-22 16:24:33 UTC (rev 131975)
</span><span class="lines">@@ -0,0 +1,96 @@
</span><ins>+--- lib/physical_cc_impl.cc.orig        2015-01-22 11:12:27.000000000 -0500
++++ lib/physical_cc_impl.cc        2015-01-22 11:18:44.000000000 -0500
+@@ -69,25 +69,25 @@
+ }
+ gold_code = goldcode;
+
+- m_bpsk[0][0].real() = (r0 * cos(M_PI / 4.0));
+- m_bpsk[0][0].imag() = (r0 * sin(M_PI / 4.0));
+- m_bpsk[0][1].real() = (r0 * cos(5.0 * M_PI / 4.0));
+- m_bpsk[0][1].imag() = (r0 * sin(5.0 * M_PI / 4.0));
+- m_bpsk[1][0].real() = (r0 * cos(5.0 * M_PI / 4.0));
+- m_bpsk[1][0].imag() = (r0 * sin(M_PI / 4.0));
+- m_bpsk[1][1].real() = (r0 * cos(M_PI / 4.0));
+- m_bpsk[1][1].imag() = (r0 * sin(5.0 * M_PI /4.0));
+- m_bpsk[2][0].real() = (r0 * cos(5.0 * M_PI / 4.0));
+- m_bpsk[2][0].imag() = (r0 * sin(M_PI / 4.0));
+- m_bpsk[2][1].real() = (r0 * cos(M_PI / 4.0));
+- m_bpsk[2][1].imag() = (r0 * sin(5.0 * M_PI /4.0));
+- m_bpsk[3][0].real() = (r0 * cos(5.0 * M_PI / 4.0));
+- m_bpsk[3][0].imag() = (r0 * sin(5.0 * M_PI / 4.0));
+- m_bpsk[3][1].real() = (r0 * cos(M_PI / 4.0));
+- m_bpsk[3][1].imag() = (r0 * sin(M_PI / 4.0));
++ m_bpsk[0][0] = gr_complex((r0 * cos(1.0 * M_PI / 4.0)),
++                                 (r0 * sin(1.0 * M_PI / 4.0)));
++ m_bpsk[0][1] = gr_complex((r0 * cos(5.0 * M_PI / 4.0)),
++                                 (r0 * sin(5.0 * M_PI / 4.0)));
++        m_bpsk[1][0] = gr_complex((r0 * cos(5.0 * M_PI / 4.0)),
++                                 (r0 * sin(1.0 * M_PI / 4.0)));
++        m_bpsk[1][1] = gr_complex((r0 * cos(1.0 * M_PI / 4.0)),
++                                 (r0 * sin(5.0 * M_PI / 4.0)));
++        m_bpsk[2][0] = gr_complex((r0 * cos(5.0 * M_PI / 4.0)),
++                                 (r0 * sin(1.0 * M_PI / 4.0)));
++        m_bpsk[2][1] = gr_complex((r0 * cos(1.0 * M_PI / 4.0)),
++                                 (r0 * sin(5.0 * M_PI / 4.0)));
++        m_bpsk[3][0] = gr_complex((r0 * cos(5.0 * M_PI / 4.0)),
++                                 (r0 * sin(5.0 * M_PI / 4.0)));
++        m_bpsk[3][1] = gr_complex((r0 * cos(1.0 * M_PI / 4.0)),
++                                 (r0 * sin(1.0 * M_PI / 4.0)));
+
+- m_zero[0].real() = 0.0; /* used for zero stuffing interpolation */
+- m_zero[0].imag() = 0.0;
++ m_zero[0] = gr_complex(0.0, /* used for zero stuffing interpolation */
++                         0.0);
+
+ // Mode and code rate
+ if (constellation == gr::dvbs2::MOD_QPSK)
+@@ -692,20 +692,16 @@
+ switch (m_cscram[n++])
+ {
+ case 0:
+- tempout.real() = tempin.real();
+- tempout.imag() = tempin.imag();
++                         tempout = tempin;
+ break;
+ case 1:
+- tempout.real() = -tempin.imag();
+- tempout.imag() = tempin.real();
++                         tempout = gr_complex(-tempin.imag(), tempin.real());
+ break;
+ case 2:
+- tempout.real() = -tempin.real();
+- tempout.imag() = -tempin.imag();
++                         tempout = -tempin;
+ break;
+ case 3:
+- tempout.real() = tempin.imag();
+- tempout.imag() = -tempin.real();
++                         tempout = gr_complex(tempin.imag(), -tempin.real());
+ break;
+ }
+ out[produced++] = tempout;
+@@ -723,20 +719,16 @@
+ switch (m_cscram[n++])
+ {
+ case 0:
+- tempout.real() = tempin.real();
+- tempout.imag() = tempin.imag();
++                                 tempout = tempin;
+ break;
+ case 1:
+- tempout.real() = -tempin.imag();
+- tempout.imag() = tempin.real();
++                                 tempout = gr_complex(-tempin.imag(), tempin.real());
+ break;
+ case 2:
+- tempout.real() = -tempin.real();
+- tempout.imag() = -tempin.imag();
++                                 tempout = -tempin;
+ break;
+ case 03:
+- tempout.real() = tempin.imag();
+- tempout.imag() = -tempin.real();
++                                 tempout = gr_complex(tempin.imag(), -tempin.real());
+ break;
+ }
+ out[produced++] = tempout;
</ins></span></pre>
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