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https://github.com/nspcc-dev/neo-go.git
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133 lines
2.9 KiB
Go
133 lines
2.9 KiB
Go
package stack
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import (
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"errors"
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"fmt"
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)
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const (
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// StackAverageSize is used to set the capacity of the stack
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// setting this number too low, will cause extra allocations
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StackAverageSize = 20
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)
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// RandomAccess represents a Random Access Stack
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type RandomAccess struct {
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vals []Item
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}
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// New will return a new random access stack
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func New() *RandomAccess {
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return &RandomAccess{
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vals: make([]Item, 0, StackAverageSize),
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}
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}
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// Items will return all items in the stack
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func (ras *RandomAccess) items() []Item {
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return ras.vals
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}
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//Len will return the length of the stack
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func (ras *RandomAccess) Len() int {
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if ras.vals == nil {
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return -1
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}
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return len(ras.vals)
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}
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// Clear will remove all items in the stack
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func (ras *RandomAccess) Clear() {
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ras.vals = make([]Item, 0, StackAverageSize)
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}
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// Pop will remove the last stack item that was added
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func (ras *RandomAccess) Pop() (Item, error) {
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if len(ras.vals) == 0 {
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return nil, errors.New("There are no items on the stack to pop")
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}
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if ras.vals == nil {
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return nil, errors.New("Cannot pop from a nil stack")
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}
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l := len(ras.vals)
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item := ras.vals[l-1]
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ras.vals = ras.vals[:l-1]
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return item, nil
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}
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// Push will put a stack item onto the top of the stack
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func (ras *RandomAccess) Push(item Item) *RandomAccess {
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if ras.vals == nil {
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ras.vals = make([]Item, 0, StackAverageSize)
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}
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ras.vals = append(ras.vals, item)
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return ras
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}
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// Insert will push a stackItem onto the stack at position `n`
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// Note; index 0 is the top of the stack, which is the end of slice
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func (ras *RandomAccess) Insert(n uint16, item Item) (*RandomAccess, error) {
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if n == 0 {
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return ras.Push(item), nil
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}
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if ras.vals == nil {
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ras.vals = make([]Item, 0, StackAverageSize)
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}
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// Check that we are not inserting out of the bounds
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stackSize := uint16(len(ras.vals))
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if n > stackSize-1 {
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return nil, fmt.Errorf("Tried to insert at index %d when length of stack is %d", n, len(ras.vals))
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}
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index := stackSize - n
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ras.vals = append(ras.vals, item)
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copy(ras.vals[index:], ras.vals[index-1:])
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ras.vals[index] = item
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return ras, nil
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}
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// Peek will check an element at a given index
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// Note: 0 is the top of the stack, which is the end of the slice
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func (ras *RandomAccess) Peek(n uint16) (Item, error) {
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stackSize := uint16(len(ras.vals))
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if n == 0 {
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index := stackSize - 1
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return ras.vals[index], nil
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}
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if ras.vals == nil {
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return nil, errors.New("Cannot peak at a nil stack")
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}
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// Check that we are not peeking out of the bounds
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if n > stackSize-1 {
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return nil, fmt.Errorf("Tried to peek at index %d when length of stack is %d", n, len(ras.vals))
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}
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index := stackSize - n - 1
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return ras.vals[index], nil
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}
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// Convenience Functions
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// PopInt will remove the last stack item that was added
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// And cast it to an integer
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func (ras *RandomAccess) PopInt() (*Int, error) {
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item, err := ras.Pop()
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if err != nil {
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return nil, err
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}
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return item.Integer()
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}
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