<?xml version="1.0" encoding="UTF-8"?>
<simulation xmds-version="2">
  
  <testing>
    <xsil_file name="vibstring_ark45.xsil" expected="vibstring_expected.xsil" absolute_tolerance="1e-7" relative_tolerance="1e-5">
      <moment_group number="1" absolute_tolerance="1e-7" relative_tolerance="1e-6" />
      <moment_group number="2" absolute_tolerance="1e-3" relative_tolerance="1e-6" />
    </xsil_file>
  </testing>
  
  <name>vibstring_ark45</name>
  <author>Graham Dennis</author>
  <description>
    Vibrating string
  </description>
  
  <features>
    <benchmark />
    <bing />
    <fftw plan="estimate" />
    <globals>
      <![CDATA[
      const double T = 10.0;
      const double mass = 1e-3;
      const double length = 1.0;
      const double mu = mass/length;
      ]]>
    </globals>
  </features>
  
  <geometry>
    <propagation_dimension> t </propagation_dimension>
    <transverse_dimensions>
      <dimension name="x" lattice="100"  domain="(0, 1)" />
    </transverse_dimensions>
  </geometry>
  
  <vector name="main" initial_basis="x" type="complex">
    <components>
      u uDot
    </components>
    <initialisation>
      <![CDATA[
        u = exp(-100.0*(x-0.5)*(x-0.5));
        uDot = 0.0;
      ]]>
    </initialisation>
  </vector>
  
  <sequence>
    <integrate algorithm="ARK45" interval="2e-3" steps="100" tolerance="1e-6">
      <samples>50 50</samples>
      <operators>
        <operator kind="ex" constant="yes">
          <operator_names>L</operator_names>
          <![CDATA[
            L = -T*kx*kx/mu;
          ]]>
        </operator>
        <integration_vectors>main</integration_vectors>
        <![CDATA[
          du_dt = uDot;
          duDot_dt = L[u];
        ]]>
      </operators>
    </integrate>
  </sequence>
  <output format="binary">
      <sampling_group initial_sample="yes">
        <!-- Any dimension not mentioned is assumed to be in real space and its middle element will be sampled -->
        <!-- Note that this is different default behaviour to the filter operator. To integrate, put in a dimension -->
        <!-- with zero lattice points. -->
        <!-- Note that dimensions can be in any order. Not that I can think of a reason why you would want to do that -->
        <dimension name="x" lattice="100" fourier_space="no" />
        <moments>amp</moments>
        <dependencies>main</dependencies>
        <![CDATA[
          amp = u;
        ]]>
      </sampling_group>
      <sampling_group initial_sample="no">
        <dimension name="x" lattice="50" fourier_space="yes" />
        <moments>amp</moments>
        <dependencies>main</dependencies>
        <![CDATA[
          amp = u.re;
        
        ]]>
      </sampling_group>
  </output>

<info>
Script compiled with xpdeint version VERSION_PLACEHOLDER (SUBVERSION_REVISION_PLACEHOLDER)
See http://www.xmds.org for more information.
</info>

<XSIL Name="moment_group_1">
  <Param Name="n_independent">2</Param>
  <Array Name="variables" Type="Text">
    <Dim>3</Dim>
    <Stream><Metalink Format="Text" Delimiter=" \n"/>
t x amp 
    </Stream>
  </Array>
  <Array Name="data" Type="double">
    <Dim>51</Dim>
    <Dim>100</Dim>
    <Dim>3</Dim>
    <Stream><Metalink Format="Binary" UnsignedLong="uint32" precision="double" Type="Remote" Encoding="LittleEndian"/>
vibstring_expected_mg0.dat
    </Stream>
  </Array>
</XSIL>

<XSIL Name="moment_group_2">
  <Param Name="n_independent">2</Param>
  <Array Name="variables" Type="Text">
    <Dim>3</Dim>
    <Stream><Metalink Format="Text" Delimiter=" \n"/>
t kx amp 
    </Stream>
  </Array>
  <Array Name="data" Type="double">
    <Dim>50</Dim>
    <Dim>50</Dim>
    <Dim>3</Dim>
    <Stream><Metalink Format="Binary" UnsignedLong="uint32" precision="double" Type="Remote" Encoding="LittleEndian"/>
vibstring_expected_mg1.dat
    </Stream>
  </Array>
</XSIL>
</simulation>