OpenFPGA/yosys/tests/fsm/generate.py

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#!/usr/bin/env python3
import argparse
import sys
import random
from contextlib import contextmanager
# set to 'True' to compare verific with yosys
test_verific = False
@contextmanager
def redirect_stdout(new_target):
old_target, sys.stdout = sys.stdout, new_target
try:
yield new_target
finally:
sys.stdout = old_target
def random_expr(variables):
c = random.choice(['bin', 'uni', 'var', 'const'])
if c == 'bin':
op = random.choice(['+', '-', '*', '<', '<=', '==', '!=', '>=', '>', '<<', '>>', '<<<', '>>>', '|', '&', '^', '~^', '||', '&&'])
return "(%s %s %s)" % (random_expr(variables), op, random_expr(variables))
if c == 'uni':
op = random.choice(['+', '-', '~', '|', '&', '^', '~^', '!', '$signed', '$unsigned'])
return "%s(%s)" % (op, random_expr(variables))
if c == 'var':
return random.choice(variables)
if c == 'const':
bits = random.randint(1, 32)
return "%d'd%s" % (bits, random.randint(0, 2**bits-1))
raise AssertionError
parser = argparse.ArgumentParser(formatter_class = argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument('-S', '--seed', type = int, help = 'seed for PRNG')
parser.add_argument('-c', '--count', type = int, default = 50, help = 'number of test cases to generate')
args = parser.parse_args()
if args.seed is not None:
print("PRNG seed: %d" % args.seed)
random.seed(args.seed)
for idx in range(args.count):
with open('temp/uut_%05d.v' % idx, 'w') as f:
with redirect_stdout(f):
rst2 = random.choice([False, True])
if rst2:
print('module uut_%05d(clk, rst1, rst2, rst, a, b, c, x, y, z);' % (idx))
print(' input clk, rst1, rst2;')
print(' output rst;')
print(' assign rst = rst1 || rst2;')
else:
print('module uut_%05d(clk, rst, a, b, c, x, y, z);' % (idx))
print(' input clk, rst;')
variables=['a', 'b', 'c', 'x', 'y', 'z']
print(' input%s [%d:0] a;' % (random.choice(['', ' signed']), random.randint(0, 31)))
print(' input%s [%d:0] b;' % (random.choice(['', ' signed']), random.randint(0, 31)))
print(' input%s [%d:0] c;' % (random.choice(['', ' signed']), random.randint(0, 31)))
print(' output reg%s [%d:0] x;' % (random.choice(['', ' signed']), random.randint(0, 31)))
print(' output reg%s [%d:0] y;' % (random.choice(['', ' signed']), random.randint(0, 31)))
print(' output reg%s [%d:0] z;' % (random.choice(['', ' signed']), random.randint(0, 31)))
state_bits = random.randint(5, 16);
print(' %sreg [%d:0] state;' % (random.choice(['', '(* fsm_encoding = "one-hot" *)',
'(* fsm_encoding = "binary" *)']), state_bits-1))
states=[]
for i in range(random.randint(2, 10)):
n = random.randint(0, 2**state_bits-1)
if n not in states:
states.append(n)
print(' always @(posedge clk) begin')
print(' if (%s) begin' % ('rst1' if rst2 else 'rst'))
print(' x <= %d;' % random.randint(0, 2**31-1))
print(' y <= %d;' % random.randint(0, 2**31-1))
print(' z <= %d;' % random.randint(0, 2**31-1))
print(' state <= %d;' % random.choice(states))
print(' end else begin')
print(' case (state)')
for state in states:
print(' %d: begin' % state)
for var in ('x', 'y', 'z'):
print(' %s <= %s;' % (var, random_expr(variables)))
next_states = states[:]
for i in range(random.randint(0, len(states))):
next_state = random.choice(next_states)
next_states.remove(next_state)
print(' if ((%s) %s (%s)) state <= %s;' % (random_expr(variables),
random.choice(['<', '<=', '>=', '>']), random_expr(variables), next_state))
print(' end')
print(' endcase')
if rst2:
print(' if (rst2) begin')
print(' x <= a;')
print(' y <= b;')
print(' z <= c;')
print(' state <= %d;' % random.choice(states))
print(' end')
print(' end')
print(' end')
print('endmodule')
with open('temp/uut_%05d.ys' % idx, 'w') as f:
with redirect_stdout(f):
if test_verific:
print('read_verilog temp/uut_%05d.v' % idx)
print('proc;; rename uut_%05d gold' % idx)
print('verific -vlog2k temp/uut_%05d.v' % idx)
print('verific -import uut_%05d' % idx)
print('rename uut_%05d gate' % idx)
else:
print('read_verilog temp/uut_%05d.v' % idx)
print('proc;;')
print('copy uut_%05d gold' % idx)
print('rename uut_%05d gate' % idx)
print('cd gate')
print('opt; wreduce; share%s; opt; fsm;;' % random.choice(['', ' -aggressive']))
print('cd ..')
print('miter -equiv -flatten -ignore_gold_x -make_outputs -make_outcmp gold gate miter')
print('sat -verify-no-timeout -timeout 20 -seq 5 -set-at 1 %s_rst 1 -prove trigger 0 -prove-skip 1 -show-inputs -show-outputs miter' % ('gold' if rst2 else 'in'))