Merge branch 'vm' into dauTT/vm-implement-MIN-MAX-WITHIN-opcodes-230
This commit is contained in:
commit
6d2fb5d89f
5 changed files with 420 additions and 3 deletions
|
@ -112,9 +112,37 @@ func (i *Int) Abs() (*Int, error) {
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return b, nil
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}
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// Lte returns a bool value from the comparison of two integers, a and b.
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// value is true if a <= b.
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// value is false if a > b.
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func (i *Int) Lte(s *Int) bool {
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return i.Value().Cmp(s.Value()) != 1
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}
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// Gte returns a bool value from the comparison of two integers, a and b.
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// value is true if a >= b.
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// value is false if a < b.
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func (i *Int) Gte(s *Int) bool {
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return i.Value().Cmp(s.Value()) != -1
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}
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// Lt returns a bool value from the comparison of two integers, a and b.
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// value is true if a < b.
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// value is false if a >= b.
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func (i *Int) Lt(s *Int) bool {
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return i.Value().Cmp(s.Value()) == -1
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}
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// Gt returns a bool value from the comparison of two integers, a and b.
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// value is true if a > b.
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// value is false if a <= b.
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func (i *Int) Gt(s *Int) bool {
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return i.Value().Cmp(s.Value()) == 1
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}
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// Min returns the mininum between two integers.
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func Min(a *Int, b *Int) *Int {
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if a.Value().Cmp(b.Value()) == -1 {
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if a.Lte(b) {
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return a
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}
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return b
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@ -123,7 +151,7 @@ func Min(a *Int, b *Int) *Int {
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// Max returns the maximun between two integers.
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func Max(a *Int, b *Int) *Int {
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if a.Value().Cmp(b.Value()) == 1 {
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if a.Gte(b) {
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return a
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}
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return b
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@ -134,6 +162,6 @@ func Max(a *Int, b *Int) *Int {
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// range [a,b) (left-inclusive).
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func (i *Int) Within(a *Int, b *Int) bool {
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// i >= a && i < b
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return !(i.Value().Cmp(a.Value()) == -1) && i.Value().Cmp(b.Value()) == -1
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return i.Gte(a) && i.Lt(b)
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}
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@ -30,3 +30,17 @@ func (b *Boolean) Value() bool {
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func (b *Boolean) Not() *Boolean {
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return NewBoolean(!b.Value())
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}
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// And returns a Boolean whose underlying value is obtained
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// by applying the && operator to two Booleans' values.
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func (b *Boolean) And(a *Boolean) *Boolean {
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c := b.Value() && a.Value()
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return NewBoolean(c)
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}
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// Or returns a Boolean whose underlying value is obtained
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// by applying the || operator to two Booleans' values.
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func (b *Boolean) Or(a *Boolean) *Boolean {
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c := b.Value() || a.Value()
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return NewBoolean(c)
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}
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@ -8,6 +8,14 @@ var opFunc = map[stack.Instruction]stackInfo{
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stack.MIN: Min,
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stack.MAX: Max,
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stack.WITHIN: Within,
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stack.NUMEQUAL: NumEqual,
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stack.NUMNOTEQUAL: NumNotEqual,
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stack.BOOLAND: BoolAnd,
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stack.BOOLOR: BoolOr,
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stack.LT: Lt,
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stack.LTE: Lte,
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stack.GT: Gt,
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stack.GTE: Gte,
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stack.SHR: Shr,
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stack.SHL: Shl,
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stack.INC: Inc,
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@ -173,6 +173,38 @@ func Mul(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rst
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return NONE, nil
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}
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// NumEqual pops two Items off of the stack and pushes a boolean to the stack
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// whose value is true iff the the two Items are equal.
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// Returns an error if either items cannot be casted to an integer.
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func NumEqual(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandA.Equal(operandB)
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ctx.Estack.Push(stack.NewBoolean(res))
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return NONE, nil
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}
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// NumNotEqual pops two Items off of the stack and pushes a boolean to the stack
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// whose value is true iff the two Items are not equal.
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// Returns an error if either items cannot be casted to an integer.
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func NumNotEqual(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandA.Equal(operandB)
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ctx.Estack.Push(stack.NewBoolean(!res))
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return NONE, nil
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}
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// Min pops two integers, a and b, off of the stack and pushes an integer to the stack
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// whose value is is the minum between a and b's value.
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// Returns an error if either items cannot be casted to an integer
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@ -254,6 +286,44 @@ func Not(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rst
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return NONE, nil
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}
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// BoolAnd pops two booleans off of the stack and pushes a boolean to the stack
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// whose value is true iff both booleans' values are true.
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// Returns an error if either items cannot be casted to an boolean
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func BoolAnd(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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bool1, bool2, err := popTwoBooleans(ctx)
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if err != nil {
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return FAULT, err
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}
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res := bool1.And(bool2)
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if err != nil {
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return FAULT, err
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}
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ctx.Estack.Push(res)
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return NONE, nil
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}
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// BoolOr pops two booleans off of the stack and pushes a boolean to the stack
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// whose value is true iff at least one of the two booleans' value is true.
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// Returns an error if either items cannot be casted to an boolean
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func BoolOr(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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bool1, bool2, err := popTwoBooleans(ctx)
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if err != nil {
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return FAULT, err
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}
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res := bool1.Or(bool2)
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if err != nil {
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return FAULT, err
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}
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ctx.Estack.Push(res)
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return NONE, nil
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}
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// Sign puts the sign of the top stack Item on top of the stack.
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// If value is negative, put -1;
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// If positive, put 1;
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@ -295,6 +365,38 @@ func Negate(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation,
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return NONE, nil
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}
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// Lte pops two integers, a and b, off of the stack and pushes a boolean the stack
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// whose value is true if a's value is less than or equal to b's value.
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// Returns an error if either items cannot be casted to an integer
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func Lte(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandB.Lte(operandA)
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ctx.Estack.Push(stack.NewBoolean(res))
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return NONE, nil
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}
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// Gte pops two integers, a and b, off of the stack and pushes a boolean the stack
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// whose value is true if a's value is greated than or equal to b's value.
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// Returns an error if either items cannot be casted to an integer
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func Gte(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandB.Gte(operandA)
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ctx.Estack.Push(stack.NewBoolean(res))
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return NONE, nil
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}
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// Shl pops two integers, a and b, off of the stack and pushes an integer to the stack
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// whose value is the b's value shift to the left by a's value bits.
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// Returns an error if either items cannot be casted to an integer
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@ -335,6 +437,38 @@ func Shr(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rst
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return NONE, nil
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}
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// Lt pops two integers, a and b, off of the stack and pushes a boolean the stack
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// whose value is true if a's value is less than b's value.
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// Returns an error if either items cannot be casted to an integer
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func Lt(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandB.Lt(operandA)
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ctx.Estack.Push(stack.NewBoolean(res))
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return NONE, nil
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}
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// Gt pops two integers, a and b, off of the stack and pushes a boolean the stack
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// whose value is true if a's value is greated than b's value.
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// Returns an error if either items cannot be casted to an integer
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func Gt(op stack.Instruction, ctx *stack.Context, istack *stack.Invocation, rstack *stack.RandomAccess) (Vmstate, error) {
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operandA, operandB, err := popTwoIntegers(ctx)
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if err != nil {
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return FAULT, err
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}
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res := operandB.Gt(operandA)
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ctx.Estack.Push(stack.NewBoolean(res))
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return NONE, nil
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}
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func popTwoIntegers(ctx *stack.Context) (*stack.Int, *stack.Int, error) {
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operandA, err := ctx.Estack.PopInt()
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if err != nil {
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@ -378,3 +512,16 @@ func popTwoByteArrays(ctx *stack.Context) (*stack.ByteArray, *stack.ByteArray, e
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}
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return ba1, ba2, nil
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}
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func popTwoBooleans(ctx *stack.Context) (*stack.Boolean, *stack.Boolean, error) {
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bool1, err := ctx.Estack.PopBoolean()
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if err != nil {
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return nil, nil, err
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}
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bool2, err := ctx.Estack.PopBoolean()
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if err != nil {
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return nil, nil, err
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}
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return bool1, bool2, nil
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}
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@ -277,6 +277,64 @@ func TestNotOp(t *testing.T) {
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assert.Equal(t, true, item.Value())
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}
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func TestNumEqual(t *testing.T) {
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v := VM{}
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a, err := stack.NewInt(big.NewInt(6))
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if err != nil {
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t.Fail()
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}
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b, err := stack.NewInt(big.NewInt(6))
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if err != nil {
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t.Fail()
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}
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ctx := stack.NewContext([]byte{})
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ctx.Estack.Push(a).Push(b)
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v.executeOp(stack.NUMEQUAL, ctx)
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// Stack should have one item
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assert.Equal(t, 1, ctx.Estack.Len())
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item, err := ctx.Estack.PopBoolean()
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if err != nil {
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t.Fail()
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}
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assert.Equal(t, true, item.Value())
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}
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func TestNumNotEqual(t *testing.T) {
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v := VM{}
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a, err := stack.NewInt(big.NewInt(5))
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if err != nil {
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t.Fail()
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}
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b, err := stack.NewInt(big.NewInt(6))
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if err != nil {
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t.Fail()
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}
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ctx := stack.NewContext([]byte{})
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ctx.Estack.Push(a).Push(b)
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v.executeOp(stack.NUMNOTEQUAL, ctx)
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// Stack should have one item
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assert.Equal(t, 1, ctx.Estack.Len())
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item, err := ctx.Estack.PopBoolean()
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if err != nil {
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t.Fail()
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}
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assert.Equal(t, true, item.Value())
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}
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func TestSignOp(t *testing.T) {
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v := VM{}
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@ -327,6 +385,64 @@ func TestNegateOp(t *testing.T) {
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assert.Equal(t, int64(20), item.Value().Int64())
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}
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func TestLteOp(t *testing.T) {
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v := VM{}
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a, err := stack.NewInt(big.NewInt(10))
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assert.Nil(t, err)
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b, err := stack.NewInt(big.NewInt(10))
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assert.Nil(t, err)
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ctx := stack.NewContext([]byte{})
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ctx.Estack.Push(a).Push(b)
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// b is the first item pop.
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// a is the second item pop.
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// we perform a <= b and place
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// the result on top of the evaluation
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// stack
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v.executeOp(stack.LTE, ctx)
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// Stack should have one item
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assert.Equal(t, 1, ctx.Estack.Len())
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item, err := ctx.Estack.PopBoolean()
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assert.Nil(t, err)
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assert.Equal(t, true, item.Value())
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}
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|
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func TestGteOp(t *testing.T) {
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v := VM{}
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a, err := stack.NewInt(big.NewInt(10))
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assert.Nil(t, err)
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|
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b, err := stack.NewInt(big.NewInt(2))
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assert.Nil(t, err)
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|
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ctx := stack.NewContext([]byte{})
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ctx.Estack.Push(a).Push(b)
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|
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// b is the first item pop.
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// a is the second item pop.
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// we perform a >= b and place
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// the result on top of the evaluation
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// stack
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v.executeOp(stack.GTE, ctx)
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|
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// Stack should have one item
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assert.Equal(t, 1, ctx.Estack.Len())
|
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|
||||
item, err := ctx.Estack.PopBoolean()
|
||||
assert.Nil(t, err)
|
||||
|
||||
assert.Equal(t, true, item.Value())
|
||||
}
|
||||
|
||||
func TestShlOp(t *testing.T) {
|
||||
|
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v := VM{}
|
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|
@ -395,6 +511,110 @@ func TestShrOp(t *testing.T) {
|
|||
assert.Equal(t, int64(2), item.Value().Int64())
|
||||
}
|
||||
|
||||
func TestBoolAndOp(t *testing.T) {
|
||||
|
||||
v := VM{}
|
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|
||||
a := stack.NewBoolean(true)
|
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b := stack.NewBoolean(true)
|
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|
||||
ctx := stack.NewContext([]byte{})
|
||||
ctx.Estack.Push(a).Push(b)
|
||||
|
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v.executeOp(stack.BOOLAND, ctx)
|
||||
|
||||
// Stack should have one item
|
||||
assert.Equal(t, 1, ctx.Estack.Len())
|
||||
|
||||
item, err := ctx.Estack.PopBoolean()
|
||||
if err != nil {
|
||||
t.Fail()
|
||||
}
|
||||
|
||||
assert.Equal(t, true, item.Value())
|
||||
}
|
||||
|
||||
func TestBoolOrOp(t *testing.T) {
|
||||
|
||||
v := VM{}
|
||||
|
||||
a := stack.NewBoolean(false)
|
||||
b := stack.NewBoolean(true)
|
||||
|
||||
ctx := stack.NewContext([]byte{})
|
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ctx.Estack.Push(a).Push(b)
|
||||
|
||||
v.executeOp(stack.BOOLOR, ctx)
|
||||
|
||||
// Stack should have one item
|
||||
assert.Equal(t, 1, ctx.Estack.Len())
|
||||
|
||||
item, err := ctx.Estack.PopBoolean()
|
||||
if err != nil {
|
||||
t.Fail()
|
||||
}
|
||||
|
||||
assert.Equal(t, true, item.Value())
|
||||
}
|
||||
|
||||
func TestLtOp(t *testing.T) {
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||||
|
||||
v := VM{}
|
||||
|
||||
a, err := stack.NewInt(big.NewInt(10))
|
||||
assert.NoError(t, err)
|
||||
|
||||
b, err := stack.NewInt(big.NewInt(2))
|
||||
assert.NoError(t, err)
|
||||
|
||||
ctx := stack.NewContext([]byte{})
|
||||
ctx.Estack.Push(a).Push(b)
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||||
|
||||
// b is the first item pop.
|
||||
// a is the second item pop.
|
||||
// we perform a < b and place
|
||||
// the result on top of the evaluation
|
||||
// stack
|
||||
v.executeOp(stack.LT, ctx)
|
||||
|
||||
// Stack should have one item
|
||||
assert.Equal(t, 1, ctx.Estack.Len())
|
||||
|
||||
item, err := ctx.Estack.PopBoolean()
|
||||
assert.NoError(t, err)
|
||||
|
||||
assert.Equal(t, false, item.Value())
|
||||
}
|
||||
|
||||
func TestGtOp(t *testing.T) {
|
||||
|
||||
v := VM{}
|
||||
|
||||
a, err := stack.NewInt(big.NewInt(10))
|
||||
assert.NoError(t, err)
|
||||
|
||||
b, err := stack.NewInt(big.NewInt(2))
|
||||
assert.NoError(t, err)
|
||||
|
||||
ctx := stack.NewContext([]byte{})
|
||||
ctx.Estack.Push(a).Push(b)
|
||||
|
||||
// b is the first item pop.
|
||||
// a is the second item pop.
|
||||
// we perform a > b and place
|
||||
// the result on top of the evaluation
|
||||
// stack
|
||||
v.executeOp(stack.GT, ctx)
|
||||
|
||||
// Stack should have one item
|
||||
assert.Equal(t, 1, ctx.Estack.Len())
|
||||
|
||||
item, err := ctx.Estack.PopBoolean()
|
||||
assert.NoError(t, err)
|
||||
|
||||
assert.Equal(t, true, item.Value())
|
||||
}
|
||||
|
||||
func TestMinOp(t *testing.T) {
|
||||
|
||||
v := VM{}
|
||||
|
|
Loading…
Reference in a new issue