// Copyright The OpenTelemetry Authors
// SPDX-License-Identifier: Apache-2.0
// Code generated by "pdata/internal/cmd/pdatagen/main.go". DO NOT EDIT.
// To regenerate this file run "make genpdata".
package ptrace
import (
"sort"
otlptrace "go.opentelemetry.io/collector/pdata/internal/data/protogen/trace/v1"
)
// SpanLinkSlice logically represents a slice of SpanLink.
//
// This is a reference type. If passed by value and callee modifies it, the
// caller will see the modification.
//
// Must use NewSpanLinkSlice function to create new instances.
// Important: zero-initialized instance is not valid for use.
type SpanLinkSlice struct {
orig *[]*otlptrace.Span_Link
}
func newSpanLinkSlice(orig *[]*otlptrace.Span_Link) SpanLinkSlice {
return SpanLinkSlice{orig}
}
// NewSpanLinkSlice creates a SpanLinkSlice with 0 elements.
// Can use "EnsureCapacity" to initialize with a given capacity.
func NewSpanLinkSlice() SpanLinkSlice {
orig := []*otlptrace.Span_Link(nil)
return newSpanLinkSlice(&orig)
}
// Len returns the number of elements in the slice.
//
// Returns "0" for a newly instance created with "NewSpanLinkSlice()".
func (es SpanLinkSlice) Len() int {
return len(*es.orig)
}
// At returns the element at the given index.
//
// This function is used mostly for iterating over all the values in the slice:
//
// for i := 0; i < es.Len(); i++ {
// e := es.At(i)
// ... // Do something with the element
// }
func (es SpanLinkSlice) At(i int) SpanLink {
return newSpanLink((*es.orig)[i])
}
// EnsureCapacity is an operation that ensures the slice has at least the specified capacity.
// 1. If the newCap <= cap then no change in capacity.
// 2. If the newCap > cap then the slice capacity will be expanded to equal newCap.
//
// Here is how a new SpanLinkSlice can be initialized:
//
// es := NewSpanLinkSlice()
// es.EnsureCapacity(4)
// for i := 0; i < 4; i++ {
// e := es.AppendEmpty()
// // Here should set all the values for e.
// }
func (es SpanLinkSlice) EnsureCapacity(newCap int) {
oldCap := cap(*es.orig)
if newCap <= oldCap {
return
}
newOrig := make([]*otlptrace.Span_Link, len(*es.orig), newCap)
copy(newOrig, *es.orig)
*es.orig = newOrig
}
// AppendEmpty will append to the end of the slice an empty SpanLink.
// It returns the newly added SpanLink.
func (es SpanLinkSlice) AppendEmpty() SpanLink {
*es.orig = append(*es.orig, &otlptrace.Span_Link{})
return es.At(es.Len() - 1)
}
// MoveAndAppendTo moves all elements from the current slice and appends them to the dest.
// The current slice will be cleared.
func (es SpanLinkSlice) MoveAndAppendTo(dest SpanLinkSlice) {
if *dest.orig == nil {
// We can simply move the entire vector and avoid any allocations.
*dest.orig = *es.orig
} else {
*dest.orig = append(*dest.orig, *es.orig...)
}
*es.orig = nil
}
// RemoveIf calls f sequentially for each element present in the slice.
// If f returns true, the element is removed from the slice.
func (es SpanLinkSlice) RemoveIf(f func(SpanLink) bool) {
newLen := 0
for i := 0; i < len(*es.orig); i++ {
if f(es.At(i)) {
continue
}
if newLen == i {
// Nothing to move, element is at the right place.
newLen++
continue
}
(*es.orig)[newLen] = (*es.orig)[i]
newLen++
}
// TODO: Prevent memory leak by erasing truncated values.
*es.orig = (*es.orig)[:newLen]
}
// CopyTo copies all elements from the current slice overriding the destination.
func (es SpanLinkSlice) CopyTo(dest SpanLinkSlice) {
srcLen := es.Len()
destCap := cap(*dest.orig)
if srcLen <= destCap {
(*dest.orig) = (*dest.orig)[:srcLen:destCap]
for i := range *es.orig {
newSpanLink((*es.orig)[i]).CopyTo(newSpanLink((*dest.orig)[i]))
}
return
}
origs := make([]otlptrace.Span_Link, srcLen)
wrappers := make([]*otlptrace.Span_Link, srcLen)
for i := range *es.orig {
wrappers[i] = &origs[i]
newSpanLink((*es.orig)[i]).CopyTo(newSpanLink(wrappers[i]))
}
*dest.orig = wrappers
}
// Sort sorts the SpanLink elements within SpanLinkSlice given the
// provided less function so that two instances of SpanLinkSlice
// can be compared.
func (es SpanLinkSlice) Sort(less func(a, b SpanLink) bool) {
sort.SliceStable(*es.orig, func(i, j int) bool { return less(es.At(i), es.At(j)) })
}