2016-03-30 15:00:00 -07:00
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from typing import List, Dict
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import numpy
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def conductor(direction: int,
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polarity: int,
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) -> List[str]:
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"""
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Create source code for conducting boundary conditions.
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:param direction: integer in range(3), corresponding to x,y,z.
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:param polarity: -1 or 1, specifying eg. a -x or +x boundary.
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:return: [E_source, H_source] source code for E and H boundary update steps.
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"""
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if direction not in range(3):
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raise Exception('Invalid direction: {}'.format(direction))
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if polarity not in (-1, 1):
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raise Exception('Invalid polarity: {}'.format(polarity))
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r = 'xyz'[direction]
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uv = 'xyz'.replace(r, '')
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if polarity < 0:
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2016-06-21 18:26:42 -07:00
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bc_e = """
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2016-03-30 15:00:00 -07:00
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if ({r} == 0) {{
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E{r}[i] = 0;
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E{u}[i] = E{u}[i+di{r}];
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E{v}[i] = E{v}[i+di{r}];
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}}
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"""
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2016-06-21 18:26:42 -07:00
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bc_h = """
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2016-03-30 15:00:00 -07:00
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if ({r} == 0) {{
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H{r}[i] = H{r}[i+di{r}];
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H{u}[i] = 0;
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H{v}[i] = 0;
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}}
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"""
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elif polarity > 0:
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2016-06-21 18:26:42 -07:00
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bc_e = """
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2016-03-30 15:00:00 -07:00
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if ({r} == s{r} - 1) {{
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E{r}[i] = -E{r}[i-2*di{r}];
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E{u}[i] = +E{u}[i-di{r}];
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E{v}[i] = +E{v}[i-di{r}];
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}} else if ({r} == s{r} - 2) {{
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E{r}[i] = 0;
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}}
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"""
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2016-06-21 18:26:42 -07:00
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bc_h = """
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2016-03-30 15:00:00 -07:00
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if ({r} == s{r} - 1) {{
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H{r}[i] = +H{r}[i-di{r}];
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H{u}[i] = -H{u}[i-2*di{r}];
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H{v}[i] = -H{v}[i-2*di{r}];
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}} else if ({r} == s{r} - 2) {{
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H{u}[i] = 0;
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H{v}[i] = 0;
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}}
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"""
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else:
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raise Exception()
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replacements = {'r': r, 'u': uv[0], 'v': uv[1]}
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2016-06-21 18:26:42 -07:00
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return [s.format(**replacements) for s in (bc_e, bc_h)]
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2016-03-30 15:00:00 -07:00
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def cpml(direction: int,
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polarity: int,
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dt: float,
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thickness: int=8,
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epsilon_eff: float=1,
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) -> Dict:
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"""
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Generate source code for complex phase matched layer (cpml) absorbing boundaries.
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These are not full boundary conditions and require a conducting boundary to be added
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in the same direction as the pml.
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:param direction: integer in range(3), corresponding to x, y, z directions.
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:param polarity: -1 or 1, corresponding to eg. -x or +x direction.
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:param dt: timestep used by the simulation
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:param thickness: Number of cells used by the pml (the grid is NOT expanded to add these cells). Default 8.
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:param epsilon_eff: Effective epsilon_r of the pml layer. Default 1.
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:return: Dict with entries 'E', 'H' (update equations for E and H) and 'psi_E', 'psi_H' (lists of str,
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specifying the field names of the cpml fields used in the E and H update steps. Eg.,
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Psi_xn_Ex for the complex Ex component for the x- pml.)
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"""
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if direction not in range(3):
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raise Exception('Invalid direction: {}'.format(direction))
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if polarity not in (-1, 1):
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raise Exception('Invalid polarity: {}'.format(polarity))
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if thickness <= 2:
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raise Exception('It would be wise to have a pml with 4+ cells of thickness')
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if epsilon_eff <= 0:
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raise Exception('epsilon_eff must be positive')
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m = (3.5, 1)
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sigma_max = 0.8 * (m[0] + 1) / numpy.sqrt(epsilon_eff)
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alpha_max = 0 # TODO: Decide what to do about non-zero alpha
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transverse = numpy.delete(range(3), direction)
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r = 'xyz'[direction]
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np = 'nVp'[numpy.sign(polarity)+1]
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uv = ['xyz'[i] for i in transverse]
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2016-06-21 18:26:42 -07:00
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xe = numpy.arange(1, thickness+1, dtype=float)[::-1]
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xh = numpy.arange(1, thickness+1, dtype=float)[::-1]
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if polarity > 0:
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xe -= 0.5
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2016-03-30 15:00:00 -07:00
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elif polarity < 0:
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xh -= 0.5
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2016-03-30 15:00:00 -07:00
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def par(x):
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sigma = ((x / thickness) ** m[0]) * sigma_max
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alpha = ((1 - x / thickness) ** m[1]) * alpha_max
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p0 = numpy.exp(-(sigma + alpha) * dt)
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p1 = sigma / (sigma + alpha) * (p0 - 1)
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return p0, p1
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2016-06-21 18:26:42 -07:00
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p0e, p1e = par(xe)
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p0h, p1h = par(xh)
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2016-03-30 15:00:00 -07:00
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vals = {'r': r,
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'u': uv[0],
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'v': uv[1],
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'np': np,
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'th': thickness,
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'p0e': ', '.join((str(x) for x in p0e)),
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'p1e': ', '.join((str(x) for x in p1e)),
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'p0h': ', '.join((str(x) for x in p0h)),
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'p1h': ', '.join((str(x) for x in p1h)),
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'se': '-+'[direction % 2],
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'sh': '+-'[direction % 2]}
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if polarity < 0:
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bounds_if = """
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if ( 0 < {r} && {r} < {th} + 1 ) {{
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const int ir = {r} - 1; // index into pml parameters
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const int ip = {v} + {u} * s{v} + ir * s{v} * s{u}; // linear index into Psi
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"""
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elif polarity > 0:
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bounds_if = """
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if ( (s{r} - 1) > {r} && {r} > (s{r} - 1) - ({th} + 1) ) {{
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const int ir = (s{r} - 1) - ({r} + 1); // index into pml parameters
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const int ip = {v} + {u} * s{v} + ir * s{v} * s{u}; // linear index into Psi
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"""
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else:
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raise Exception('Bad polarity (=0)')
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2016-06-21 18:26:42 -07:00
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code_e = """
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// pml parameters:
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const float p0[{th}] = {{ {p0e} }};
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const float p1[{th}] = {{ {p1e} }};
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Psi_{r}{np}_E{u}[ip] = p0[ir] * Psi_{r}{np}_E{u}[ip] + p1[ir] * (H{v}[i] - H{v}[i-di{r}]);
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Psi_{r}{np}_E{v}[ip] = p0[ir] * Psi_{r}{np}_E{v}[ip] + p1[ir] * (H{u}[i] - H{u}[i-di{r}]);
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E{u}[i] {se}= dt / eps{u}[i] * Psi_{r}{np}_E{u}[ip];
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E{v}[i] {sh}= dt / eps{v}[i] * Psi_{r}{np}_E{v}[ip];
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}}
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"""
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code_h = """
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// pml parameters:
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const float p0[{th}] = {{ {p0h} }};
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const float p1[{th}] = {{ {p1h} }};
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Psi_{r}{np}_H{u}[ip] = p0[ir] * Psi_{r}{np}_H{u}[ip] + p1[ir] * (E{v}[i+di{r}] - E{v}[i]);
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Psi_{r}{np}_H{v}[ip] = p0[ir] * Psi_{r}{np}_H{v}[ip] + p1[ir] * (E{u}[i+di{r}] - E{u}[i]);
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H{u}[i] {sh}= dt * Psi_{r}{np}_H{u}[ip];
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H{v}[i] {se}= dt * Psi_{r}{np}_H{v}[ip];
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}}
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"""
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pml_data = {
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'E': (bounds_if + code_e).format(**vals),
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'H': (bounds_if + code_h).format(**vals),
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'psi_E': ['Psi_{r}{np}_E{u}'.format(**vals),
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'Psi_{r}{np}_E{v}'.format(**vals)],
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'psi_H': ['Psi_{r}{np}_H{u}'.format(**vals),
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'Psi_{r}{np}_H{v}'.format(**vals)],
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}
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return pml_data
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