Is there a safe way to convert float64 to int64 in Go?
php editor Zimo has a question about safely converting float64 to int64 in Go. We need to consider precision loss and range overflow. In Go, you can use the math package's Round function to round and convert floating point numbers to integers. However, it should be noted that if the floating point number exceeds the range of int64, an overflow error may occur during the conversion process. In order to avoid this situation, we can use the IsNaN function of the math package to check whether the floating point number is NaN, and then convert it to ensure the safety of the conversion. This ensures that precision loss and range overflow problems are avoided during the conversion process.
Question content
I know the int() or int64() type conversion function provided by Go.
Considering that the maximum representable 64-bit floating point number math.MaxFloat64 is much larger than math.MaxInt64, is there a safe way to convert int64 to int64 (with truncation,)? A way to trigger an overflow error?
Workaround
If you are converting (not converting or typecasting) from float64 to int64, then you can convert the floating point value with Compares the nearest double-precision integer value of math.maxint64 to math.minint64. These numbers cannot be stored exactly in float64 values, but they will be stored as the next integer value above or below these numbers:
float64(math.MaxInt64) // 9223372036854775808 float64(math.MinInt64) // -9223372036854775808
So as long as your float64 value is between these two values, you know it can be converted to int64 without overflowing.
But please note that if you convert in the other direction, there is no guarantee that float64 can accurately represent all int64# up to int64 ## value, because double-precision floating-point values contain only 52 bits of precision. In this case you have to check if the int64 value is between -1<<53 and 1<<53.
math/big package to handle larger values.
The above is the detailed content of Is there a safe way to convert float64 to int64 in Go?. For more information, please follow other related articles on the PHP Chinese website!
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
Notepad++7.3.1
Easy-to-use and free code editor
SublimeText3 Chinese version
Chinese version, very easy to use
Zend Studio 13.0.1
Powerful PHP integrated development environment
Dreamweaver CS6
Visual web development tools
SublimeText3 Mac version
God-level code editing software (SublimeText3)
Hot Topics
1655
14
1413
52
1306
25
1252
29
1226
24
Golang's Purpose: Building Efficient and Scalable Systems
Apr 09, 2025 pm 05:17 PM
Go language performs well in building efficient and scalable systems. Its advantages include: 1. High performance: compiled into machine code, fast running speed; 2. Concurrent programming: simplify multitasking through goroutines and channels; 3. Simplicity: concise syntax, reducing learning and maintenance costs; 4. Cross-platform: supports cross-platform compilation, easy deployment.
Golang and C : Concurrency vs. Raw Speed
Apr 21, 2025 am 12:16 AM
Golang is better than C in concurrency, while C is better than Golang in raw speed. 1) Golang achieves efficient concurrency through goroutine and channel, which is suitable for handling a large number of concurrent tasks. 2)C Through compiler optimization and standard library, it provides high performance close to hardware, suitable for applications that require extreme optimization.
Golang vs. Python: Key Differences and Similarities
Apr 17, 2025 am 12:15 AM
Golang and Python each have their own advantages: Golang is suitable for high performance and concurrent programming, while Python is suitable for data science and web development. Golang is known for its concurrency model and efficient performance, while Python is known for its concise syntax and rich library ecosystem.
Golang vs. Python: Performance and Scalability
Apr 19, 2025 am 12:18 AM
Golang is better than Python in terms of performance and scalability. 1) Golang's compilation-type characteristics and efficient concurrency model make it perform well in high concurrency scenarios. 2) Python, as an interpreted language, executes slowly, but can optimize performance through tools such as Cython.
The Performance Race: Golang vs. C
Apr 16, 2025 am 12:07 AM
Golang and C each have their own advantages in performance competitions: 1) Golang is suitable for high concurrency and rapid development, and 2) C provides higher performance and fine-grained control. The selection should be based on project requirements and team technology stack.
Golang's Impact: Speed, Efficiency, and Simplicity
Apr 14, 2025 am 12:11 AM
Goimpactsdevelopmentpositivelythroughspeed,efficiency,andsimplicity.1)Speed:Gocompilesquicklyandrunsefficiently,idealforlargeprojects.2)Efficiency:Itscomprehensivestandardlibraryreducesexternaldependencies,enhancingdevelopmentefficiency.3)Simplicity:
Golang and C : The Trade-offs in Performance
Apr 17, 2025 am 12:18 AM
The performance differences between Golang and C are mainly reflected in memory management, compilation optimization and runtime efficiency. 1) Golang's garbage collection mechanism is convenient but may affect performance, 2) C's manual memory management and compiler optimization are more efficient in recursive computing.
C and Golang: When Performance is Crucial
Apr 13, 2025 am 12:11 AM
C is more suitable for scenarios where direct control of hardware resources and high performance optimization is required, while Golang is more suitable for scenarios where rapid development and high concurrency processing are required. 1.C's advantage lies in its close to hardware characteristics and high optimization capabilities, which are suitable for high-performance needs such as game development. 2.Golang's advantage lies in its concise syntax and natural concurrency support, which is suitable for high concurrency service development.
