Check if an environment is little endian.
Check if an environment is big endian.
Buffer wrapper with endian-configured reads
64-bit big-endian signed integer-to-string conversion
Determines whether the system is little-endian or big-endian
The Linux MIPS 64-bit Little Endian binary for esbuild, a JavaScript bundler.
The Linux PowerPC 64-bit Little Endian binary for esbuild, a JavaScript bundler.
The Linux IBM Z 64-bit Big Endian binary for esbuild, a JavaScript bundler.
Check if an environment is little endian.
ICU4C data (Little Endian)
The Linux MIPS 64-bit Little Endian binary for esbuild, a JavaScript bundler.
The Linux PowerPC 64-bit Little Endian binary for esbuild, a JavaScript bundler.
The Linux IBM Z 64-bit Big Endian binary for esbuild, a JavaScript bundler.
Encode / decode big endian unsigned 64 bit integers
Float64Array in little-endian byte order.
The Linux PowerPC 64-bit Little Endian binary for the Netlify Functions local proxy server
The Linux MIPS 64-bit Little Endian binary for esbuild, a JavaScript bundler.
The Linux PowerPC 64-bit Little Endian binary for snapbuild, a snapshot bundler.
The Linux PowerPC 64-bit Little Endian binary for esbuild, a JavaScript bundler.
Float32Array in little-endian byte order.
The Linux MIPS 64-bit Little Endian binary for snapbuild, a snapshot bundler.
The Linux IBM Z 64-bit Big Endian binary for esbuild, a JavaScript bundler.
Return a typed array constructor for creating typed arrays stored in little-endian byte order.
toggle the byte ordering of a buffer
A Rust library for I/O Endianness.
A create for defining endianness within your data structures, to make handling portable data structures simpler.
Macro for for generating bitfields from structs and enum bitflags for defining packed binary schemas in low-level systems (e.g. embedded development or emulators)
Macro for generating flexible bitfields. Useful for low-level code (embedded or emulators).
A create for defining endianness within your data structures, to make handling portable data structures simpler.
A module that wraps scalar types in an endian safe type.
A Rust library for compressing and decompressing data using the Zeckendorf representation algorithm
Provides generic functions and traits for accessing big-endian and little-endian versions of data types with a cheap abstraction that is zero-cost when the platform endianness matches the desired endianness.
`cpu-endian` is a portable crate to detect CPU byte order. It detects how CPU native scalar type is ordered; little-endian or big-endian, or something else (like PDP-endian, mixed-endian, middle-endian, and so on.)
The simplest library for storing a value while handling byte order or for obtaining the byte order of the current target.
[no_std] Methods for efficient reading and writing of structures to raw pointers in a stream-like fashion.
Macros implementation for endian_codec crate
A fast little-endian implementation of Crockford's Base32 specification.
Functions include: big endian encode/decode, hex/bytes convert, keccak256 ...
Encode and decode hexadecimal strings with 0x prefix handling, produce xxd-style hex dumps, format hex output with configurable grouping, swap endianness, extract byte ranges, pad hex strings, convert between hex and integers, and validate hex strings.
Ply is a ruby gem for reading Stanford PLY-format 3D model files. The PLY file format is a flexible format for storing semi-structured binary data, and is often used to stored polygonalized 3D models generated with range scanning hardware. You can find some examples of the format at the {Stanford 3D Scanning Repository}[http://graphics.stanford.edu/data/3Dscanrep/]. Ply provides a simple API for quick access to the data in a PLY file (including examining the structure of a particular file's content), and an almost-as-simple event-driven API which can be used to process extremely large ply files in a streaming fashion, without needing to keep the full dataset represented in the file in memory. Ply handles all three types of PLY files (ascii, binary-big-endian and binary-little-endian). If you don't have any Stanford PLY files on hand, you probably don't need this gem, but if you're curious, the PLY file format is described at Wikipedia[http://en.wikipedia.org/wiki/PLY_(file_format)].
Defines TG::Geometry with immutable Geom parsing and constructor wrappers, expanded geometry predicates and accessors, Rect helpers, Hex/GeoBIN writers, raw extra_json access, read-only borrowed Line/Ring/Polygon and GeometryCollection child wrappers, value Segment wrappers, Registry reload sugar, optional ActiveRecord source helpers, and an immutable geofencing-oriented Index with owned and borrowed geometry ingestion, flat/rtree strategies, deterministic ordered id results, exact rtree allocation accounting, and native-endian packed point batch queries, and FeatureSource GeoJSON FeatureCollection extraction/build paths over vendored C sources. Ractor support is not claimed.
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