docs/rules/periphery/periphery-split-csv.py - skywater-pdk - Git at Google

 #!/usr/bin/env python3

 from __future__ import print_function


 import csv
 import os
 import re
 import textwrap

 from tabulate import tabulate
 import enum
 from typing import List, Tuple
 from dataclasses import dataclass, field, asdict


 def filesafe_template(s):
     s = s.replace('(', '')
     s = s.replace(')', '')
     s = s.replace(' ', '_')
     s = s.replace('/', '')
     s = s.replace('.-', '_dotdash')
     return s


 class RuleFlags(enum.Enum):
     """

     Note: some rules contain correction factors to compensate possible mask
     defect and unpredicted process biases)
     """

     P   = u'Rule applies to periphery only (outside :drc_tag:`areaid.ce`). A corresponding core rule may or may not exist.'
     NE  = u'Rule not checked for esd_nwell_tap. There are no corresponding rule for esd_nwell_tap.'
     NC  = u'Rule not checked by DRC. It should be used as a guideline only.'
     TC  = u'Rule not checked for cell name "*_tech_CD_top*"'
     A   = u'Rule documents a functionality implemented in CL algorithms and may not be checked by DRC.'
     AD  = u'Rule documents a functionality implemented in CL algorithms and checked by DRC.'
     DE  = u'Rule not checked for source of Drain Extended device'
     LVS = u'Rule handled by LVS'
     F   = u'Rule intended for Frame only, not checked inside Die'
     DNF = u'Drawn Not equal Final. The drawn rule does not reflect the final dimension on silicon. See table J for details.'
     RC  = u'Recommended rule at the chip level, required rule at the IP level.'
     RR  = u'Recommended rule at any IP level'
     AL  = u'Rules applicable only to Al BE flows'
     CU  = u'Rules applicable only to Cu BE flows'
     IR  = u'IR drop check compering Al database and slotted Cu database for the same product (2 gds files) must be clean'

     EXEMPT = u'Rule is an exception?'


 @dataclass
 class Rule:
     name: str = ''
     description: str = ''
     flags: Tuple[RuleFlags] = field(default_factory=tuple)
     value: str = ''


 @dataclass
 class RuleTable:
     fname: str = ''
     order: int = -1
     template: str = ''
     name: str = ''
     description: str = ''
     image: str = ''
     rules: List[Rule] = field(default_factory=list, repr=False)
     enabled: bool = True
     notes: str = ''

     @property
     def csv_fname(self):
         return 'p{:03d}-{}.csv'.format(self.order, self.fname)


 data = [[]]
 for l in open('periphery.csv', encoding='utf8'):
     if '.-)' in l:
         data.append([])

     only_comma = True
     for i in l:
         if i not in ' ,\n':
             only_comma = False
             break
     if only_comma:
         continue
     data[-1].append(l)

 no_pics = [
     'p024-hvtr_dotdash.svg',
     'p033-licon_dotdash.svg',
     'p042-via3_dotdash.svg',
     'p043-nsm_dotdash.svg',
     'p044-m5_dotdash.svg',
     'p044-via4_dotdash.svg',
     'p045-pad_dotdash.svg',
     'p045-rdl_dotdash.svg',
     'p053-hv_dotdash_dotdash.svg',
     'p055-uhvi_dotdash_dotdash.svg',
     'p055-ulvt-_dotdash.svg',
     'p055-vhvi_dotdash_dotdash.svg',
 ]

 image_files = {}
 image_location = {}
 image_re = re.compile('p([0-9][0-9][0-9])-([^.]*)\.svg')
 for i in sorted(os.listdir('.')+no_pics):
     if not i.endswith('.svg'):
         continue
     page, name = image_re.match(i).groups()
     page = int(page, 10)
     if name in image_files:
         assert page-1 == image_location[name], (name, i, image_files[name], page, image_location[name])
     if i not in no_pics:
         image_files[name] = i
     image_location[name] = page


 rule_tables = []
 for d in data[1:]:
     rows = list(csv.reader(d))

     rule_template, rule_name, a, process = rows.pop(0)
     rule_template = rule_template.strip()
     rule_name = rule_name.strip()
     a = a.strip()
     process = process.strip()
     assert a == '', (d[0], a)
     assert process in ('sky130', ''), process

     image_name = filesafe_template(rule_template)

     if 'High Voltage' in rule_name and not 'hv' in rule_template:
         rule_template = rule_template.replace('(', '(hv')

     # Extract the function line (if it exists)
     func = 'Function: Defines '+rule_name+' (FIXME)'
     if rows[0][1].startswith('Function:'):
         a, func, b, c = rows.pop(0)
         assert a == '', a
         assert b == '', b
         assert c == '', c

     # Strip off the notes
     notes = []
     for i, r in enumerate(rows):
         if r[0] not in ('Note', ''):
             break
         if r[1] == '':
             assert r[2] == '', (r[2], rule_name, i, r)
             assert r[3] == 'NA', (r[3], rule_name, i, r)
             continue
         assert r[1] != '', (r[1], rule_name, i, r)
         assert r[2] == '', (r[2], rule_name, i, r)
         assert r[3] == '', (r[3], rule_name, i, r)
         notes.append(r[1])
     rows = rows[i:]

     # Strip off the flags table
     should_strip_flags = False
     for i, r in enumerate(rows):
         if r[0] == 'Use' and r[1] == 'Explanation':
             should_strip_flags = True
             break
     if should_strip_flags:
         rows = rows[:i]

     # Remove rows with Section in the first column
     rows = [r for r in rows if not r[0].startswith('Section ')]

     # Join together description which span multiple rows.
     continued_index = []
     for i, row in enumerate(rows):
         if row[0] == '':
             continued_index.append(i)
     for i in reversed(continued_index):
         previous_row = rows[i-1]
         l = rows[i]
         a, extra, b, c = rows.pop(i)
         assert a.strip() == '', (a, l)
         assert b.strip() in ('', previous_row[2]), (b, l, previous_row)
         assert c.strip() in ('', 'NA', 'N/A', previous_row[3]), (c, l, previous_row)
         if extra.strip() == '':
             continue
         previous_row[1] += '\n'+extra

     # Calculate the actual rule name.
     pr = None
     values = []
     for r in rows:
         values.append(r[-1])

         if r[0].startswith('.'):
             r[0] = rule_template.replace('.-.-', r[0])
         elif r[0].strip() == '':
             r[0] = pr[0]
         else:
             r[0] = rule_template.replace('.-', '.'+r[0], 1)
         pr = r

     rt = RuleTable()
     rt.template = rule_template
     rt.fname = filesafe_template(rule_template)
     rt.name = rule_name
     rt.description = func

     if notes:
         rt.notes = "\n\n".join(notes)

     if rt.fname in image_files:
         rt.image = image_files[rt.fname]
     if rt.fname in image_location:
         rt.order = image_location[rt.fname]

     # Check for all the rules having Not Applicable values
     if len(values) == len([v for v in values if v in ('NA', 'N/A')]):
         rt.enabled = False

     for r in rows:
         assert len(r) == 4, r

         if r[0] == 'Use' and r[1] == 'Explanation':
             break

         rc = Rule()
         rc.name = r[0]
         rc.description = r[1].strip()
         flags = [getattr(RuleFlags, f.upper().replace(',', '')) for f in r[2].strip().split()]
         if r[3] == 'NC':
             flags.append(RuleFlags.NC)
             r[3] = ''
         rc.flags = tuple(flags)
         rc.value = r[3]
         rt.rules.append(rc)

     if rule_tables:
         assert rt.order >= rule_tables[-1].order, "{} >= {}\n{}\n{}\n".format(rt.order, rule_tables[-1].order, rt, rule_tables[-1])
     rule_tables.append(rt)
     continue


 PERIPHERY_RULES_FILE = os.path.join('..', 'periphery-rules.rst')

 rst = open(PERIPHERY_RULES_FILE, 'w', encoding='utf8')

 rst.write("""\
 .. Do **not** modify this file it is generated from the periphery.csv file
    found in the periphery directory using the
    ./periphery/periphery-split-csv.py script. Instead run `make
    rules/periphery-rules.rst` in the ./docs directory.

 .. list-table::
    :header-rows: 1
    :stub-columns: 1
    :widths: 10 75

    * - Use
      - Explanation
 """)
 for e in RuleFlags:
     rst.write("""\
    * -
        .. _{e.name}:

        :drc_flag:`{e.name}`

      - {e.value}
 """.format(e=e))


 for rt in rule_tables:

     rst.write("""\

 :drc_rule:`{rt.template}`
 {hd}

 """.format(rt=rt, hd='-'*(len(rt.template)+len(':drc_rule:``'))))

     if rt.notes:
         rst.write("""\
 .. note::

 {}


 """.format(textwrap.indent(rt.notes, prefix='    ')))

     headers = ('Name', 'Description', 'Flags', 'Value')
     headers_fmt = (':drc_rule:`Name`', 'Description', ':drc_flag:`Flags`', 'Value')

     rst.write("""\
 .. list-table:: {rt.description}
    :header-rows: 1
    :stub-columns: 1
    :widths: 10 75 5 10

    * - {h}
 """.format(rt=rt,h='\n     - '.join(headers_fmt)))


     for r in rt.rules:
         f = ' '.join(':drc_flag:`{}`'.format(f.name) for f in r.flags)
         if '\\n- ' in r.description: # bullet list description
             r.description = r.description.replace('\\n- ','\n  - ')
         elif '\\n' in r.description: # multi line description
             r.description = '\n'.join( [ '| '+l for l in r.description.split('\\n') ] )
         else:
             r.description = r.description.lstrip(' -') # one item bullet list to text
         d = textwrap.indent(r.description, prefix='       ').strip()
         rst.write("""\
    * - :drc_rule:`{r.name}`
      - {d}
      - {f}
      - {r.value}
 """.format(r=r, d=d, f=f))

     rst.write('\n\n')

     with open(rt.csv_fname, 'w', newline='', encoding='utf8') as f:
         w = csv.DictWriter(f, headers)
         w.writeheader()
         for r in rt.rules:
             d = {f: getattr(r, f.lower()) for f in headers}
             d['Flags'] = ' '.join(f.name for f in d['Flags'])
             w.writerow(d)

     if rt.image:
         rst.write("""\
 .. figure:: {image_file}
     :width: 100%
     :align: center


 """.format(image_file=os.path.join('periphery', rt.image)))

 rst.close()

 with open(PERIPHERY_RULES_FILE, encoding='utf8') as f:
     print(f.read())
	#!/usr/bin/env python3

	from __future__ import print_function


	import csv
	import os
	import re
	import textwrap

	from tabulate import tabulate
	import enum
	from typing import List, Tuple
	from dataclasses import dataclass, field, asdict


	def filesafe_template(s):
	s = s.replace('(', '')
	s = s.replace(')', '')
	s = s.replace(' ', '_')
	s = s.replace('/', '')
	s = s.replace('.-', '_dotdash')
	return s


	class RuleFlags(enum.Enum):
	"""

	Note: some rules contain correction factors to compensate possible mask
	defect and unpredicted process biases)
	"""

	P = u'Rule applies to periphery only (outside :drc_tag:`areaid.ce`). A corresponding core rule may or may not exist.'
	NE = u'Rule not checked for esd_nwell_tap. There are no corresponding rule for esd_nwell_tap.'
	NC = u'Rule not checked by DRC. It should be used as a guideline only.'
	TC = u'Rule not checked for cell name "_tech_CD_top"'
	A = u'Rule documents a functionality implemented in CL algorithms and may not be checked by DRC.'
	AD = u'Rule documents a functionality implemented in CL algorithms and checked by DRC.'
	DE = u'Rule not checked for source of Drain Extended device'
	LVS = u'Rule handled by LVS'
	F = u'Rule intended for Frame only, not checked inside Die'
	DNF = u'Drawn Not equal Final. The drawn rule does not reflect the final dimension on silicon. See table J for details.'
	RC = u'Recommended rule at the chip level, required rule at the IP level.'
	RR = u'Recommended rule at any IP level'
	AL = u'Rules applicable only to Al BE flows'
	CU = u'Rules applicable only to Cu BE flows'
	IR = u'IR drop check compering Al database and slotted Cu database for the same product (2 gds files) must be clean'

	EXEMPT = u'Rule is an exception?'


	@dataclass
	class Rule:
	name: str = ''
	description: str = ''
	flags: Tuple[RuleFlags] = field(default_factory=tuple)
	value: str = ''


	@dataclass
	class RuleTable:
	fname: str = ''
	order: int = -1
	template: str = ''
	name: str = ''
	description: str = ''
	image: str = ''
	rules: List[Rule] = field(default_factory=list, repr=False)
	enabled: bool = True
	notes: str = ''

	@property
	def csv_fname(self):
	return 'p{:03d}-{}.csv'.format(self.order, self.fname)


	data = [[]]
	for l in open('periphery.csv', encoding='utf8'):
	if '.-)' in l:
	data.append([])

	only_comma = True
	for i in l:
	if i not in ' ,\n':
	only_comma = False
	break
	if only_comma:
	continue
	data[-1].append(l)

	no_pics = [
	'p024-hvtr_dotdash.svg',
	'p033-licon_dotdash.svg',
	'p042-via3_dotdash.svg',
	'p043-nsm_dotdash.svg',
	'p044-m5_dotdash.svg',
	'p044-via4_dotdash.svg',
	'p045-pad_dotdash.svg',
	'p045-rdl_dotdash.svg',
	'p053-hv_dotdash_dotdash.svg',
	'p055-uhvi_dotdash_dotdash.svg',
	'p055-ulvt-_dotdash.svg',
	'p055-vhvi_dotdash_dotdash.svg',
	]

	image_files = {}
	image_location = {}
	image_re = re.compile('p([0-9][0-9][0-9])-([^.]*)\.svg')
	for i in sorted(os.listdir('.')+no_pics):
	if not i.endswith('.svg'):
	continue
	page, name = image_re.match(i).groups()
	page = int(page, 10)
	if name in image_files:
	assert page-1 == image_location[name], (name, i, image_files[name], page, image_location[name])
	if i not in no_pics:
	image_files[name] = i
	image_location[name] = page


	rule_tables = []
	for d in data[1:]:
	rows = list(csv.reader(d))

	rule_template, rule_name, a, process = rows.pop(0)
	rule_template = rule_template.strip()
	rule_name = rule_name.strip()
	a = a.strip()
	process = process.strip()
	assert a == '', (d[0], a)
	assert process in ('sky130', ''), process

	image_name = filesafe_template(rule_template)

	if 'High Voltage' in rule_name and not 'hv' in rule_template:
	rule_template = rule_template.replace('(', '(hv')

	# Extract the function line (if it exists)
	func = 'Function: Defines '+rule_name+' (FIXME)'
	if rows[0][1].startswith('Function:'):
	a, func, b, c = rows.pop(0)
	assert a == '', a
	assert b == '', b
	assert c == '', c

	# Strip off the notes
	notes = []
	for i, r in enumerate(rows):
	if r[0] not in ('Note', ''):
	break
	if r[1] == '':
	assert r[2] == '', (r[2], rule_name, i, r)
	assert r[3] == 'NA', (r[3], rule_name, i, r)
	continue
	assert r[1] != '', (r[1], rule_name, i, r)
	assert r[2] == '', (r[2], rule_name, i, r)
	assert r[3] == '', (r[3], rule_name, i, r)
	notes.append(r[1])
	rows = rows[i:]

	# Strip off the flags table
	should_strip_flags = False
	for i, r in enumerate(rows):
	if r[0] == 'Use' and r[1] == 'Explanation':
	should_strip_flags = True
	break
	if should_strip_flags:
	rows = rows[:i]

	# Remove rows with Section in the first column
	rows = [r for r in rows if not r[0].startswith('Section ')]

	# Join together description which span multiple rows.
	continued_index = []
	for i, row in enumerate(rows):
	if row[0] == '':
	continued_index.append(i)
	for i in reversed(continued_index):
	previous_row = rows[i-1]
	l = rows[i]
	a, extra, b, c = rows.pop(i)
	assert a.strip() == '', (a, l)
	assert b.strip() in ('', previous_row[2]), (b, l, previous_row)
	assert c.strip() in ('', 'NA', 'N/A', previous_row[3]), (c, l, previous_row)
	if extra.strip() == '':
	continue
	previous_row[1] += '\n'+extra

	# Calculate the actual rule name.
	pr = None
	values = []
	for r in rows:
	values.append(r[-1])

	if r[0].startswith('.'):
	r[0] = rule_template.replace('.-.-', r[0])
	elif r[0].strip() == '':
	r[0] = pr[0]
	else:
	r[0] = rule_template.replace('.-', '.'+r[0], 1)
	pr = r

	rt = RuleTable()
	rt.template = rule_template
	rt.fname = filesafe_template(rule_template)
	rt.name = rule_name
	rt.description = func

	if notes:
	rt.notes = "\n\n".join(notes)

	if rt.fname in image_files:
	rt.image = image_files[rt.fname]
	if rt.fname in image_location:
	rt.order = image_location[rt.fname]

	# Check for all the rules having Not Applicable values
	if len(values) == len([v for v in values if v in ('NA', 'N/A')]):
	rt.enabled = False

	for r in rows:
	assert len(r) == 4, r

	if r[0] == 'Use' and r[1] == 'Explanation':
	break

	rc = Rule()
	rc.name = r[0]
	rc.description = r[1].strip()
	flags = [getattr(RuleFlags, f.upper().replace(',', '')) for f in r[2].strip().split()]
	if r[3] == 'NC':
	flags.append(RuleFlags.NC)
	r[3] = ''
	rc.flags = tuple(flags)
	rc.value = r[3]
	rt.rules.append(rc)

	if rule_tables:
	assert rt.order >= rule_tables[-1].order, "{} >= {}\n{}\n{}\n".format(rt.order, rule_tables[-1].order, rt, rule_tables[-1])
	rule_tables.append(rt)
	continue


	PERIPHERY_RULES_FILE = os.path.join('..', 'periphery-rules.rst')

	rst = open(PERIPHERY_RULES_FILE, 'w', encoding='utf8')

	rst.write("""\
	.. Do not modify this file it is generated from the periphery.csv file
	found in the periphery directory using the
	./periphery/periphery-split-csv.py script. Instead run `make
	rules/periphery-rules.rst` in the ./docs directory.

	.. list-table::
	:header-rows: 1
	:stub-columns: 1
	:widths: 10 75

	* - Use
	- Explanation
	""")
	for e in RuleFlags:
	rst.write("""\
	* -
	.. _{e.name}:

	:drc_flag:`{e.name}`

	- {e.value}
	""".format(e=e))


	for rt in rule_tables:

	rst.write("""\

	:drc_rule:`{rt.template}`
	{hd}

	""".format(rt=rt, hd='-'*(len(rt.template)+len(':drc_rule:``'))))

	if rt.notes:
	rst.write("""\
	.. note::

	{}


	""".format(textwrap.indent(rt.notes, prefix=' ')))

	headers = ('Name', 'Description', 'Flags', 'Value')
	headers_fmt = (':drc_rule:`Name`', 'Description', ':drc_flag:`Flags`', 'Value')

	rst.write("""\
	.. list-table:: {rt.description}
	:header-rows: 1
	:stub-columns: 1
	:widths: 10 75 5 10

	* - {h}
	""".format(rt=rt,h='\n - '.join(headers_fmt)))


	for r in rt.rules:
	f = ' '.join(':drc_flag:`{}`'.format(f.name) for f in r.flags)
	if '\\n- ' in r.description: # bullet list description
	r.description = r.description.replace('\\n- ','\n - ')
	elif '\\n' in r.description: # multi line description
	r.description = '\n'.join( [ '\| '+l for l in r.description.split('\\n') ] )
	else:
	r.description = r.description.lstrip(' -') # one item bullet list to text
	d = textwrap.indent(r.description, prefix=' ').strip()
	rst.write("""\
	* - :drc_rule:`{r.name}`
	- {d}
	- {f}
	- {r.value}
	""".format(r=r, d=d, f=f))

	rst.write('\n\n')

	with open(rt.csv_fname, 'w', newline='', encoding='utf8') as f:
	w = csv.DictWriter(f, headers)
	w.writeheader()
	for r in rt.rules:
	d = {f: getattr(r, f.lower()) for f in headers}
	d['Flags'] = ' '.join(f.name for f in d['Flags'])
	w.writerow(d)

	if rt.image:
	rst.write("""\
	.. figure:: {image_file}
	:width: 100%
	:align: center


	""".format(image_file=os.path.join('periphery', rt.image)))

	rst.close()

	with open(PERIPHERY_RULES_FILE, encoding='utf8') as f:
	print(f.read())