website/content/ta/spring2022/csci2600/recitation07.md

---
title: "PSoft Recitation 7: Exam Review"
date: 2022-02-22T21:28:34-04:00
draft: false
---

## Question 1: Forward Reasoning

Fill in the blanks using forward reasoning. Don't forget to:

- Carry your variables forward
- Show your work
- Simplify expressions
- State the strongest postcondition

```java
{x > 1}
y = x;
{                    }
x = x + 5;
{                    }
y = 2 * y;
{                    }
if (z < 12) {
    y = -z;
    {                        }
} else {
    y = -6 * y;
    {                        }
}
{                             }
```

## Question 2: Reasoning about loops

Consider the following Dafny code:

```csharp
method until_parity(y: int) returns (index: int)
    requires y < 0
    ensures index == (1 - y) / 2  || index == (-y / 2)
{
    var p := y;
    index := 0;
    while (p != 0 && p != 1)
        decreases -p
        invariant y <= p <= 1
        invariant index == (p - y) / 2
    {
        p := p + 2;
        index := index + 1;
    }
}
```

### Q2.1: Loop Invariants

Prove that `index == (p - y)  / 2` using induction

### Q2.2 Postcondition Verification

Show that the postcondition is provable from the loop invariant and loop condition.

### Q2.2 (Bonus) Decrementing Function

Prove that `-p` is the decrementing function.

## Question 3: Dafny Invariants

What is the missing invariant to make this code verify in Dafny?

```csharp
method copy(in_arr: array<int>) returns (out_arr: array<int>)
    ensures in_arr.Length == out_arr.Length
    ensures forall j :: 0 <= j < in_arr.Length ==> in_arr[j] == out_arr[j]
{
    out_arr := new int[in_arr.Length];
    var i := 0;
    while i < in_arr.Length
        invariant 0 <= i <= in_arr.Length
		// INVARIANT MISSING HERE
    {
        out_arr[i] := in_arr[i];
        i := i + 1;
    }
}
```

## Question 4: Backwards Reasoning

Fill in the blanks using forward reasoning. Don't forget to:

- Carry your variables forward
- Show your work
- Simplify expressions
- State the strongest precondition

```java
{                 }
w = 2 * w;
{                 }
z = -w;
{                 }
y = v + 1;
{                 }
x = min(y, z);
{      x < 0      }
```


## Question 5: Hoare Triple Validity

Assume the following are true:

```
{b} code {y}
a -> b
b -> c
x -> y
y -> z
```

For the following Hoare triples state whether or not they are valid.

If valid, why? If not valid, provide counterexample.

*Hint: Recall Liskov Principle of Substitutability*

**Q5.1:** Is `{a} code {y}` valid?

**Q5.2:** Is `{b} code {x}` valid?

**Q5.3:** Is `{b} code {z}` valid?
Uploaded recitation materials 2022-02-22 21:40:04 -05:00			`---`
Relabeled recitation 2022-02-22 21:42:39 -05:00			`title: "PSoft Recitation 7: Exam Review"`
Uploaded recitation materials 2022-02-22 21:40:04 -05:00			`date: 2022-02-22T21:28:34-04:00`
			`draft: false`
			`---`

			`## Question 1: Forward Reasoning`

			`Fill in the blanks using forward reasoning. Don't forget to:`

			`- Carry your variables forward`
			`- Show your work`
			`- Simplify expressions`
			`- State the strongest postcondition`

			```java
			`{x > 1}`
			`y = x;`
			`{ }`
			`x = x + 5;`
			`{ }`
			`y = 2 * y;`
			`{ }`
			`if (z < 12) {`
			`y = -z;`
			`{ }`
			`} else {`
			`y = -6 * y;`
			`{ }`
			`}`
			`{ }`
			```

			`## Question 2: Reasoning about loops`

			`Consider the following Dafny code:`

			```csharp
			`method until_parity(y: int) returns (index: int)`
			`requires y < 0`
			`ensures index == (1 - y) / 2 \|\| index == (-y / 2)`
			`{`
			`var p := y;`
			`index := 0;`
			`while (p != 0 && p != 1)`
			`decreases -p`
			`invariant y <= p <= 1`
			`invariant index == (p - y) / 2`
			`{`
			`p := p + 2;`
			`index := index + 1;`
			`}`
			`}`
			```

			`### Q2.1: Loop Invariants`

			Prove that `index == (p - y) / 2` using induction

			`### Q2.2 Postcondition Verification`

			`Show that the postcondition is provable from the loop invariant and loop condition.`

			`### Q2.2 (Bonus) Decrementing Function`

			Prove that `-p` is the decrementing function.

			`## Question 3: Dafny Invariants`

			`What is the missing invariant to make this code verify in Dafny?`

			```csharp
			`method copy(in_arr: array<int>) returns (out_arr: array<int>)`
			`ensures in_arr.Length == out_arr.Length`
			`ensures forall j :: 0 <= j < in_arr.Length ==> in_arr[j] == out_arr[j]`
			`{`
			`out_arr := new int[in_arr.Length];`
			`var i := 0;`
			`while i < in_arr.Length`
			`invariant 0 <= i <= in_arr.Length`
			`// INVARIANT MISSING HERE`
			`{`
			`out_arr[i] := in_arr[i];`
			`i := i + 1;`
			`}`
			`}`
			```

			`## Question 4: Backwards Reasoning`

			`Fill in the blanks using forward reasoning. Don't forget to:`

			`- Carry your variables forward`
			`- Show your work`
			`- Simplify expressions`
			`- State the strongest precondition`

			```java
			`{ }`
			`w = 2 * w;`
			`{ }`
			`z = -w;`
			`{ }`
			`y = v + 1;`
			`{ }`
			`x = min(y, z);`
			`{ x < 0 }`
			```



			`## Question 5: Hoare Triple Validity`

			`Assume the following are true:`

			```
			`{b} code {y}`
			`a -> b`
			`b -> c`
			`x -> y`
			`y -> z`
			```

			`For the following Hoare triples state whether or not they are valid.`

			`If valid, why? If not valid, provide counterexample.`

			`Hint: Recall Liskov Principle of Substitutability`

			Q5.1: Is `{a} code {y}` valid?

			Q5.2: Is `{b} code {x}` valid?

			Q5.3: Is `{b} code {z}` valid?