Backend DevelopmentGolangWhy Does Appending One Element to a Nil Slice in Go Double Its Capacity?
Capacity Expansion in Nil Slices: Appending One Element Increases Capacity by Two
When working with slices in Go, the concept of capacity is crucial. Capacity represents the underlying storage allocated for a slice, providing space for additional elements. When appending an element to an existing slice, the capacity may increase to accommodate the new element.
In the provided scenario, a nil slice s1 with a length and capacity of 0 has an element appended to it, resulting in a new slice s2 with a length of 1 and a capacity of 2. Why does this increase in capacity occur, even though only one element was added?
Go's slice implementation optimizes performance by allocating sufficient capacity to avoid unnecessary reallocations. When appending to a nil slice, the compiler allocates a small initial capacity, typically 2, to reduce the overhead of repeated allocations and copying.
Additionally, slices in Go have an implicit upper index bound defined by their capacity. This means that even though the length of s2 is 1, the upper index bound is 2, allowing elements to be read or written at that index. However, these values are not considered part of the actual slice data and may not be visible when using printing functions like fmt.Printf().
In practice, it's essential to focus on the length of a slice rather than its capacity. Capacity is mainly used for performance optimizations and should not be directly accessed or relied upon.
The above is the detailed content of Why Does Appending One Element to a Nil Slice in Go Double Its Capacity?. For more information, please follow other related articles on the PHP Chinese website!
Learn Go Binary Encoding/Decoding: Working with the 'encoding/binary' PackageMay 08, 2025 am 12:13 AMGo uses the "encoding/binary" package for binary encoding and decoding. 1) This package provides binary.Write and binary.Read functions for writing and reading data. 2) Pay attention to choosing the correct endian (such as BigEndian or LittleEndian). 3) Data alignment and error handling are also key to ensure the correctness and performance of the data.
Go: Byte Slice Manipulation with the Standard 'bytes' PackageMay 08, 2025 am 12:09 AMThe"bytes"packageinGooffersefficientfunctionsformanipulatingbyteslices.1)Usebytes.Joinforconcatenatingslices,2)bytes.Bufferforincrementalwriting,3)bytes.Indexorbytes.IndexByteforsearching,4)bytes.Readerforreadinginchunks,and5)bytes.SplitNor
Go encoding/binary package: Optimizing performance for binary operationsMay 08, 2025 am 12:06 AMTheencoding/binarypackageinGoiseffectiveforoptimizingbinaryoperationsduetoitssupportforendiannessandefficientdatahandling.Toenhanceperformance:1)Usebinary.NativeEndianfornativeendiannesstoavoidbyteswapping.2)BatchReadandWriteoperationstoreduceI/Oover
Go bytes package: short reference and tipsMay 08, 2025 am 12:05 AMGo's bytes package is mainly used to efficiently process byte slices. 1) Using bytes.Buffer can efficiently perform string splicing to avoid unnecessary memory allocation. 2) The bytes.Equal function is used to quickly compare byte slices. 3) The bytes.Index, bytes.Split and bytes.ReplaceAll functions can be used to search and manipulate byte slices, but performance issues need to be paid attention to.
Go bytes package: practical examples for byte slice manipulationMay 08, 2025 am 12:01 AMThe byte package provides a variety of functions to efficiently process byte slices. 1) Use bytes.Contains to check the byte sequence. 2) Use bytes.Split to split byte slices. 3) Replace the byte sequence bytes.Replace. 4) Use bytes.Join to connect multiple byte slices. 5) Use bytes.Buffer to build data. 6) Combined bytes.Map for error processing and data verification.
Go Binary Encoding/Decoding: A Practical Guide with ExamplesMay 07, 2025 pm 05:37 PMGo's encoding/binary package is a tool for processing binary data. 1) It supports small-endian and large-endian endian byte order and can be used in network protocols and file formats. 2) The encoding and decoding of complex structures can be handled through Read and Write functions. 3) Pay attention to the consistency of byte order and data type when using it, especially when data is transmitted between different systems. This package is suitable for efficient processing of binary data, but requires careful management of byte slices and lengths.
Go 'bytes' Package: Compare, Join, Split & MoreMay 07, 2025 pm 05:29 PMThe"bytes"packageinGoisessentialbecauseitoffersefficientoperationsonbyteslices,crucialforbinarydatahandling,textprocessing,andnetworkcommunications.Byteslicesaremutable,allowingforperformance-enhancingin-placemodifications,makingthispackage
Go Strings Package: Essential Functions You Need to KnowMay 07, 2025 pm 04:57 PMGo'sstringspackageincludesessentialfunctionslikeContains,TrimSpace,Split,andReplaceAll.1)Containsefficientlychecksforsubstrings.2)TrimSpaceremoveswhitespacetoensuredataintegrity.3)SplitparsesstructuredtextlikeCSV.4)ReplaceAlltransformstextaccordingto
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Dreamweaver Mac version
Visual web development tools
WebStorm Mac version
Useful JavaScript development tools
Dreamweaver CS6
Visual web development tools
SublimeText3 English version
Recommended: Win version, supports code prompts!
MinGW - Minimalist GNU for Windows
This project is in the process of being migrated to osdn.net/projects/mingw, you can continue to follow us there. MinGW: A native Windows port of the GNU Compiler Collection (GCC), freely distributable import libraries and header files for building native Windows applications; includes extensions to the MSVC runtime to support C99 functionality. All MinGW software can run on 64-bit Windows platforms.
