scripts/python-skywater-pdk/skywater_pdk/cells/generate/waveform.py - skywater-pdk - Git at Google

 #!/usr/bin/env python3
 # -*- coding: utf-8 -*-
 #
 # Copyright 2020 The SkyWater PDK Authors.
 #
 # Use of this source code is governed by the Apache 2.0
 # license that can be found in the LICENSE file or at
 # https://www.apache.org/licenses/LICENSE-2.0
 #
 # SPDX-License-Identifier: Apache-2.0

 ''' This is a cell VCD waveform generation script.
 '''

 import csv
 import json
 import os
 import sys
 import argparse
 import pathlib
 import glob
 import subprocess
 import textwrap
 import re


 def write_vcd (cellpath, define_data, use_power_pins=False):
     ''' Generates vcd for a given cell.

     Args:
         cellpath - path to a cell [str of pathlib.Path]
         define_data - cell data from json [dic]
         use_power_pins - include power pins toggling in simulation [bool]
     '''

     # collect power port names
     pp = []
     for p in define_data['ports']:
         if len(p)>2 and p[0]=='power':
                 pp.append(p[1])

     # define output file(s)
     ppsuffix = '.pp' if use_power_pins else ''
     outfile = os.path.join(cellpath, define_data['file_prefix'] + ppsuffix + '.vcd')
     vppfile = os.path.join(cellpath, define_data['file_prefix'] + '.vpp.tmp')
     tmptestbed  = os.path.join(cellpath, define_data['file_prefix'] + '.tb.v.tmp')

     # find and patch Verilog testbed file
     testbedfile = os.path.join(cellpath, define_data['file_prefix'] + '.tb.v')
     assert os.path.exists(testbedfile), testbedfile
     insertppdefine = use_power_pins
     prvline=''
     with open(tmptestbed,'w') as ttb:
         with open(testbedfile,'r') as tbf:
             for line in tbf:
                 # add use_power_pins define
                 if insertppdefine and line.startswith('`include'):
                     line = '`define USE_POWER_PINS\n' + line
                     insertppdefine = False
                 # add dumpfile define
                 if prvline.strip(' \n\r')=='begin':
                     line = line[:-len(line.lstrip())] + \
                            '$dumpfile("' + outfile + '");\n' + \
                            line[:-len(line.lstrip())] + \
                            '$dumpvars(1,top);\n' + \
                            line
                 # remove power pins from reg - optinal, but makes output more readable
                 if not use_power_pins:
                     for p in pp:
                         if re.search( 'reg\s+'+p, line ) is not None or \
                            re.search( p+'\s+\=', line )  is not None :
                              line=''
                              break
                 # remove power pins from dut
                 if not use_power_pins and define_data['file_prefix']+' dut' in line:
                     for p in pp:
                         line = line.replace(f'.{p}({p}),','')
                         line = line.replace(f'.{p}({p}))',')')
                 prvline = line
                 ttb.write(line)

     # generate vpp code and vcd recording
     if subprocess.call(['iverilog', '-o', vppfile, tmptestbed], cwd=cellpath):
       raise ChildProcessError("Icarus Verilog compilation failed")
     if subprocess.call(['vvp', vppfile], cwd=cellpath):
       raise ChildProcessError("Icarus Verilog runtime failed")

     # remove temporary files
     os.remove(tmptestbed)
     os.remove(vppfile)


 def process(cellpath):
     ''' Processes cell indicated by path.
         Opens cell definiton and calls further processing

     Args:
         cellpath - path to a cell [str of pathlib.Path]
     '''

     print()
     print(cellpath)
     define_json = os.path.join(cellpath, 'definition.json')
     if not os.path.exists(define_json):
         print("No definition.json in", cellpath)
     assert os.path.exists(define_json), define_json
     define_data = json.load(open(define_json))

     if define_data['type'] == 'cell':
         write_vcd(cellpath, define_data, use_power_pins = False)
         write_vcd(cellpath, define_data, use_power_pins = True)

     return


 def main():
     ''' Generates VCD waveform for cell.'''

     prereq_txt = ''
     output_txt = 'output:\n  generates [fullcellname].vcd'
     allcellpath = '../../../libraries/*/latest/cells/*'

     parser = argparse.ArgumentParser(
             description = main.__doc__,
             epilog = prereq_txt +'\n\n'+ output_txt,
             formatter_class=argparse.RawDescriptionHelpFormatter)
     parser.add_argument(
             "--all_libs",
             help="process all cells in "+allcellpath,
             action="store_true")
     parser.add_argument(
             "cell_dir",
             help="path to the cell directory",
             type=pathlib.Path,
             nargs="*")

     args = parser.parse_args()

     if args.all_libs:
         path = pathlib.Path(allcellpath).expanduser()
         parts = path.parts[1:] if path.is_absolute() else path.parts
         paths = pathlib.Path(path.root).glob(str(pathlib.Path("").joinpath(*parts)))
         args.cell_dir = list(paths)

     cell_dirs = [d.resolve() for d in args.cell_dir if d.is_dir()]

     errors = 0
     for d in cell_dirs:
         try:
             process(d)
         except KeyboardInterrupt:
             sys.exit(1)
         except (AssertionError, FileNotFoundError, ChildProcessError) as ex:
             print (f'Error: {type(ex).__name__}')
             print (f'{ex.args}')
             errors +=1
     print (f'\n{len(cell_dirs)} files processed, {errors} errors.')
     return 0 if errors else 1

 if __name__ == "__main__":
     sys.exit(main())
	#!/usr/bin/env python3
	# -- coding: utf-8 --
	#
	# Copyright 2020 The SkyWater PDK Authors.
	#
	# Use of this source code is governed by the Apache 2.0
	# license that can be found in the LICENSE file or at
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# SPDX-License-Identifier: Apache-2.0

	''' This is a cell VCD waveform generation script.
	'''

	import csv
	import json
	import os
	import sys
	import argparse
	import pathlib
	import glob
	import subprocess
	import textwrap
	import re


	def write_vcd (cellpath, define_data, use_power_pins=False):
	''' Generates vcd for a given cell.

	Args:
	cellpath - path to a cell [str of pathlib.Path]
	define_data - cell data from json [dic]
	use_power_pins - include power pins toggling in simulation [bool]
	'''

	# collect power port names
	pp = []
	for p in define_data['ports']:
	if len(p)>2 and p[0]=='power':
	pp.append(p[1])

	# define output file(s)
	ppsuffix = '.pp' if use_power_pins else ''
	outfile = os.path.join(cellpath, define_data['file_prefix'] + ppsuffix + '.vcd')
	vppfile = os.path.join(cellpath, define_data['file_prefix'] + '.vpp.tmp')
	tmptestbed = os.path.join(cellpath, define_data['file_prefix'] + '.tb.v.tmp')

	# find and patch Verilog testbed file
	testbedfile = os.path.join(cellpath, define_data['file_prefix'] + '.tb.v')
	assert os.path.exists(testbedfile), testbedfile
	insertppdefine = use_power_pins
	prvline=''
	with open(tmptestbed,'w') as ttb:
	with open(testbedfile,'r') as tbf:
	for line in tbf:
	# add use_power_pins define
	if insertppdefine and line.startswith('`include'):
	line = '`define USE_POWER_PINS\n' + line
	insertppdefine = False
	# add dumpfile define
	if prvline.strip(' \n\r')=='begin':
	line = line[:-len(line.lstrip())] + \
	'$dumpfile("' + outfile + '");\n' + \
	line[:-len(line.lstrip())] + \
	'$dumpvars(1,top);\n' + \
	line
	# remove power pins from reg - optinal, but makes output more readable
	if not use_power_pins:
	for p in pp:
	if re.search( 'reg\s+'+p, line ) is not None or \
	re.search( p+'\s+\=', line ) is not None :
	line=''
	break
	# remove power pins from dut
	if not use_power_pins and define_data['file_prefix']+' dut' in line:
	for p in pp:
	line = line.replace(f'.{p}({p}),','')
	line = line.replace(f'.{p}({p}))',')')
	prvline = line
	ttb.write(line)

	# generate vpp code and vcd recording
	if subprocess.call(['iverilog', '-o', vppfile, tmptestbed], cwd=cellpath):
	raise ChildProcessError("Icarus Verilog compilation failed")
	if subprocess.call(['vvp', vppfile], cwd=cellpath):
	raise ChildProcessError("Icarus Verilog runtime failed")

	# remove temporary files
	os.remove(tmptestbed)
	os.remove(vppfile)


	def process(cellpath):
	''' Processes cell indicated by path.
	Opens cell definiton and calls further processing

	Args:
	cellpath - path to a cell [str of pathlib.Path]
	'''

	print()
	print(cellpath)
	define_json = os.path.join(cellpath, 'definition.json')
	if not os.path.exists(define_json):
	print("No definition.json in", cellpath)
	assert os.path.exists(define_json), define_json
	define_data = json.load(open(define_json))

	if define_data['type'] == 'cell':
	write_vcd(cellpath, define_data, use_power_pins = False)
	write_vcd(cellpath, define_data, use_power_pins = True)

	return


	def main():
	''' Generates VCD waveform for cell.'''

	prereq_txt = ''
	output_txt = 'output:\n generates [fullcellname].vcd'
	allcellpath = '../../../libraries//latest/cells/'

	parser = argparse.ArgumentParser(
	description = main.__doc__,
	epilog = prereq_txt +'\n\n'+ output_txt,
	formatter_class=argparse.RawDescriptionHelpFormatter)
	parser.add_argument(
	"--all_libs",
	help="process all cells in "+allcellpath,
	action="store_true")
	parser.add_argument(
	"cell_dir",
	help="path to the cell directory",
	type=pathlib.Path,
	nargs="*")

	args = parser.parse_args()

	if args.all_libs:
	path = pathlib.Path(allcellpath).expanduser()
	parts = path.parts[1:] if path.is_absolute() else path.parts
	paths = pathlib.Path(path.root).glob(str(pathlib.Path("").joinpath(*parts)))
	args.cell_dir = list(paths)

	cell_dirs = [d.resolve() for d in args.cell_dir if d.is_dir()]

	errors = 0
	for d in cell_dirs:
	try:
	process(d)
	except KeyboardInterrupt:
	sys.exit(1)
	except (AssertionError, FileNotFoundError, ChildProcessError) as ex:
	print (f'Error: {type(ex).__name__}')
	print (f'{ex.args}')
	errors +=1
	print (f'\n{len(cell_dirs)} files processed, {errors} errors.')
	return 0 if errors else 1

	if __name__ == "__main__":
	sys.exit(main())