Allow writing a list of patterns to gds (multiple topcells)
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@ -19,14 +19,14 @@ from ..utils import rotation_matrix_2d, get_bit, vector2
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__author__ = 'Jan Petykiewicz'
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__author__ = 'Jan Petykiewicz'
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def write(pattern: Pattern,
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def write(patterns: Pattern or List[Pattern],
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filename: str,
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filename: str,
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meters_per_unit: float,
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meters_per_unit: float,
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logical_units_per_unit: float = 1):
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logical_units_per_unit: float = 1):
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"""
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"""
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Write a Pattern to a GDSII file, by first calling .polygonize() on it
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Write a Pattern or list of patterns to a GDSII file, by first calling
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to change the shapes into polygons, and then writing patterns as GDSII
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.polygonize() to change the shapes into polygons, and then writing patterns
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structures, polygons as boundary elements, and subpatterns as structure
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as GDSII structures, polygons as boundary elements, and subpatterns as structure
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references (sref).
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references (sref).
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For each shape,
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For each shape,
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@ -43,7 +43,7 @@ def write(pattern: Pattern,
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If you want pattern polygonized with non-default arguments, just call pattern.polygonize()
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If you want pattern polygonized with non-default arguments, just call pattern.polygonize()
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prior to calling this function.
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prior to calling this function.
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:param pattern: A Pattern to write to file. Modified by this function.
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:param patterns: A Pattern or list of patterns to write to file. Modified by this function.
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:param filename: Filename to write to.
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:param filename: Filename to write to.
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:param meters_per_unit: Written into the GDSII file, meters per (database) length unit.
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:param meters_per_unit: Written into the GDSII file, meters per (database) length unit.
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All distances are assumed to be an integer multiple of this unit, and are stored as such.
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All distances are assumed to be an integer multiple of this unit, and are stored as such.
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@ -57,12 +57,17 @@ def write(pattern: Pattern,
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logical_unit=logical_units_per_unit,
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logical_unit=logical_units_per_unit,
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physical_unit=meters_per_unit)
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physical_unit=meters_per_unit)
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if isinstance(patterns, Pattern):
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patterns = [patterns]
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# Get a dict of id(pattern) -> pattern
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# Get a dict of id(pattern) -> pattern
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patterns_by_id = {**(pattern.referenced_patterns_by_id()), id(pattern): pattern}
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patterns_by_id = {id(pattern): pattern for pattern in patterns}
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for pattern in patterns:
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patterns_by_id.update(pattern.referenced_patterns_by_id())
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# Now create a structure for each pattern, and add in any Boundary and SREF elements
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# Now create a structure for each pattern, and add in any Boundary and SREF elements
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for pat in patterns_by_id.values():
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for pat in patterns_by_id.values():
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sanitized_name = re.compile('[^A-Za-z0-9_\?\$]').sub('_', pattern.name)
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sanitized_name = re.compile('[^A-Za-z0-9_\?\$]').sub('_', pat.name)
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structure = gdsii.structure.Structure(name=sanitized_name.encode('ASCII'))
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structure = gdsii.structure.Structure(name=sanitized_name.encode('ASCII'))
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lib.append(structure)
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lib.append(structure)
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@ -86,7 +91,7 @@ def write(pattern: Pattern,
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# Add an SREF for each subpattern entry
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# Add an SREF for each subpattern entry
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# strans must be set for angle and mag to take effect
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# strans must be set for angle and mag to take effect
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for subpat in pat.subpatterns:
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for subpat in pat.subpatterns:
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sanitized_name = re.compile('[^A-Za-z0-9_\?\$]').sub('_', subpat.name)
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sanitized_name = re.compile('[^A-Za-z0-9_\?\$]').sub('_', subpat.pattern.name)
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sref = gdsii.elements.SRef(struct_name=sanitized_name.encode('ASCII'),
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sref = gdsii.elements.SRef(struct_name=sanitized_name.encode('ASCII'),
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xy=numpy.round([subpat.offset]).astype(int))
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xy=numpy.round([subpat.offset]).astype(int))
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sref.strans = 0
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sref.strans = 0
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@ -98,15 +103,15 @@ def write(pattern: Pattern,
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lib.save(stream)
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lib.save(stream)
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def write_dose2dtype(pattern: Pattern,
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def write_dose2dtype(patterns: Pattern or List[Pattern],
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filename: str,
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filename: str,
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meters_per_unit: float,
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meters_per_unit: float,
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logical_units_per_unit: float = 1
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logical_units_per_unit: float = 1
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) -> List[float]:
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) -> List[float]:
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"""
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"""
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Write a Pattern to a GDSII file, by first calling .polygonize() on it
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Write a Pattern or list of patterns to a GDSII file, by first calling
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to change the shapes into polygons, and then writing patterns as GDSII
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.polygonize() to change the shapes into polygons, and then writing patterns
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structures, polygons as boundary elements, and subpatterns as structure
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as GDSII structures, polygons as boundary elements, and subpatterns as structure
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references (sref).
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references (sref).
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For each shape,
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For each shape,
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@ -117,7 +122,7 @@ def write_dose2dtype(pattern: Pattern,
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A list of doses is retured, providing a mapping between datatype
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A list of doses is retured, providing a mapping between datatype
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(list index) and dose (list entry).
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(list index) and dose (list entry).
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Note that this function modifies the Pattern.
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Note that this function modifies the Pattern(s).
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It is often a good idea to run pattern.subpatternize() prior to calling this function,
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It is often a good idea to run pattern.subpatternize() prior to calling this function,
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especially if calling .polygonize() will result in very many vertices.
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especially if calling .polygonize() will result in very many vertices.
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@ -125,7 +130,7 @@ def write_dose2dtype(pattern: Pattern,
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If you want pattern polygonized with non-default arguments, just call pattern.polygonize()
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If you want pattern polygonized with non-default arguments, just call pattern.polygonize()
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prior to calling this function.
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prior to calling this function.
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:param pattern: A Pattern to write to file. Modified by this function.
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:param patterns: A Pattern or list of patterns to write to file. Modified by this function.
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:param filename: Filename to write to.
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:param filename: Filename to write to.
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:param meters_per_unit: Written into the GDSII file, meters per (database) length unit.
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:param meters_per_unit: Written into the GDSII file, meters per (database) length unit.
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All distances are assumed to be an integer multiple of this unit, and are stored as such.
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All distances are assumed to be an integer multiple of this unit, and are stored as such.
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@ -141,11 +146,16 @@ def write_dose2dtype(pattern: Pattern,
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logical_unit=logical_units_per_unit,
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logical_unit=logical_units_per_unit,
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physical_unit=meters_per_unit)
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physical_unit=meters_per_unit)
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# Get a dict of id(pattern) -> pattern
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if isinstance(patterns, Pattern):
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patterns_by_id = {**(pattern.referenced_patterns_by_id()), id(pattern): pattern}
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patterns = [patterns]
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# Get a table of (id(subpat.pattern), written_dose) for each subpattern
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# Get a dict of id(pattern) -> pattern
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sd_table = make_dose_table(pattern)
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patterns_by_id = {id(pattern): pattern for pattern in patterns}
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for pattern in patterns:
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patterns_by_id.update(pattern.referenced_patterns_by_id())
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# Get a table of (id(pat), written_dose) for each pattern and subpattern
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sd_table = make_dose_table(patterns)
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# Figure out all the unique doses necessary to write this pattern
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# Figure out all the unique doses necessary to write this pattern
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# This means going through each row in sd_table and adding the dose values needed to write
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# This means going through each row in sd_table and adding the dose values needed to write
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@ -2,7 +2,7 @@
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Helper functions for file reading and writing
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Helper functions for file reading and writing
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"""
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"""
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import re
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import re
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from typing import Set, Tuple
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from typing import Set, Tuple, List
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from masque.pattern import Pattern
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from masque.pattern import Pattern
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@ -24,18 +24,19 @@ def mangle_name(pattern: Pattern, dose_multiplier: float=1.0) -> str:
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return sanitized_name
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return sanitized_name
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def make_dose_table(pattern: Pattern, dose_multiplier: float=1.0) -> Set[Tuple[int, float]]:
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def make_dose_table(patterns: List[Pattern], dose_multiplier: float=1.0) -> Set[Tuple[int, float]]:
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"""
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"""
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Create a set containing (id(subpat.pattern), written_dose) for each subpattern
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Create a set containing (id(pat), written_dose) for each pattern (including subpatterns)
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:param pattern: Source Pattern.
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:param pattern: Source Patterns.
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:param dose_multiplier: Multiplier for all written_dose entries.
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:param dose_multiplier: Multiplier for all written_dose entries.
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:return: {(id(subpat.pattern), written_dose), ...}
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:return: {(id(subpat.pattern), written_dose), ...}
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"""
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"""
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dose_table = {(id(pattern), dose_multiplier)}
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dose_table = {(id(pattern), dose_multiplier) for pattern in patterns}
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for pattern in patterns:
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for subpat in pattern.subpatterns:
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for subpat in pattern.subpatterns:
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subpat_dose_entry = (id(subpat.pattern), subpat.dose * dose_multiplier)
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subpat_dose_entry = (id(subpat.pattern), subpat.dose * dose_multiplier)
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if subpat_dose_entry not in dose_table:
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if subpat_dose_entry not in dose_table:
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subpat_dose_table = make_dose_table(subpat.pattern, subpat.dose * dose_multiplier)
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subpat_dose_table = make_dose_table([subpat.pattern], subpat.dose * dose_multiplier)
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dose_table = dose_table.union(subpat_dose_table)
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dose_table = dose_table.union(subpat_dose_table)
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return dose_table
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return dose_table
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