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initialized with lecture 1 examples

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sp 8 months ago
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f7b8d78fe8
  1. 52
      Lecture1/bitvectors_signedness.py
  2. 17
      Lecture1/intro_booleans.py
  3. 6
      Lecture1/intro_booleans.smt
  4. 11
      Lecture1/intro_booleans_solution.py
  5. 20
      Lecture1/material_implication.py
  6. 9
      Lecture1/material_implication.smt
  7. 29
      Lecture1/material_implication_solution.py
  8. 15
      Lecture1/weird_xor.py
  9. 26
      Lecture1/weird_xor_solution.py

52
Lecture1/bitvectors_signedness.py

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from z3 import *
solver = Solver()
bvX = BitVec("bvX", 8)
solver.add(bvX + 1 < bvX - 1)
print(f"Current 'state' of the solver:\n {solver.sexpr()}")
input("Hit Enter.")
result = solver.check()
print(result)
if result == sat:
print("=== Model ===")
for var in solver.model().decls():
print(f"M: {var}: int:{solver.model()[bvX].as_long()}, binary:{bin(solver.model()[bvX].as_long())} \t | type: {type(solver.model()[var])}")
print("=============")
solver.add(BVAddNoOverflow(bvX, 1, True))
solver.add(BVSubNoUnderflow(bvX, 1, True))
input("Hit Enter.")
print(f"Current 'state' of the solver:\n {solver.sexpr()}")
input("Hit Enter.")
result = solver.check()
print(result)
if result == sat:
print("=== Model ===")
for var in solver.model().decls():
print(f"M: {var}: int:{solver.model()[bvX].as_long()}, binary:{bin(solver.model()[bvX].as_long())} \t | type: {type(solver.model()[var])}")
print("=============")

17
Lecture1/intro_booleans.py

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from z3 import *
a, b = Bools("a b")
solver = Solver()
solver.add(Not(a))
solver.add(Or(a,b))
#solver.add(And(Not(a), Or(a,b)))
result = solver.check()
print(result)
model = solver.model()
print(model)
#for var in model.decls():
# print(f"{var}: {model[var]} \t(:{type(model[var])})")

6
Lecture1/intro_booleans.smt

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(declare-const a Bool)
(declare-const b Bool)
(assert (not a))
(assert (or a b))
(check-sat)
(get-model)

11
Lecture1/intro_booleans_solution.py

@ -0,0 +1,11 @@
from z3 import *
a, b = Bools("a b")
solver = Solver()
solver.add(Not(b))
solver.add(Or(a,b))
result = solver.check()
model = solver.model()
print(model)

20
Lecture1/material_implication.py

@ -0,0 +1,20 @@
# coding: utf-8
import os, sys
import time
from z3 import *
# TODO: Check Equivalence of
# - p -> q
# - !p | q
# create the solver
solver = Solver()
result = solver.check()
print(solver.sexpr())
print(result)

9
Lecture1/material_implication.smt

@ -0,0 +1,9 @@
(declare-fun b () Bool)
(declare-fun a () Bool)
(declare-fun l () Bool)
(declare-fun r () Bool)
(assert (= l (=> a b)))
(assert (= r (or (not a) b)))
(assert (distinct r l))
(check-sat)
(get-model)

29
Lecture1/material_implication_solution.py

@ -0,0 +1,29 @@
# coding: utf-8
import os, sys
import time
from z3 import *
# create the solver
solver = Solver()
a, b = Bools("a b")
l, r = Bools("l r")
solver.add(l == Implies(a, b))
solver.add(r == Or(Not(a), b))
solver.add(Distinct(r,l))
result = solver.check()
print(solver.sexpr())
print(result)
### A different way ###
solver = Solver()
a, b = Bools("a b")
l = Implies(a,b)
r = Or(Not(a),b)
solver.add(Distinct(l,r))
result = solver.check()
print(result)

15
Lecture1/weird_xor.py

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#!/usr/bin/python
from z3 import *
# TODO: Check for equivalence:
## - (((y & x)*-2) + (y+x))
## - x^y
s= Solver()
result = s.check()
print(result)
if result == sat:
print(s.model())

26
Lecture1/weird_xor_solution.py

@ -0,0 +1,26 @@
#!/usr/bin/python
from z3 import *
x = BitVec('x', 32)
y = BitVec('y', 32)
s = Solver()
s.add(Distinct(((y & x)* -2) + (y + x), x^y))
result = s.check()
print(result)
if result == sat:
print(s.model())
### A 'different' way ###
s = Solver()
l = (y & x)*-2 + (y+x)
r = x^y
s.add(Distinct(l, r))
result = s.check()
print(result)
if result == sat:
print(s.model())
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