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qs2: a framework for efficient serialization
qs2
is the successor to the qs
package. The goal is to have reliable and fast performance for saving and loading objects in R.
The qs2
format directly uses R serialization (via the R_Serialize
/R_Unserialize
C API) while improving underlying compression and disk IO patterns. If you are familiar with the qs
package, the benefits and usage are the same.
qs_save(data, "myfile.qs2")
qs_read("myfile.qs2") data <-
Use the file extension qs2
to distinguish it from the original qs
package. It is not compatible with the original qs
format.
install.packages("qs2")
On x64 Mac or Linux, you can enable multi-threading by compiling from source. It is enabled by default on Windows.
::install_cran("qs2", type = "source", configure.args = "--with-TBB --with-simd=AVX2") remotes
On non-x64 systems (e.g. Mac ARM) remove the AVX2 flag.
::install_cran("qs2", type = "source", configure.args = "--with-TBB") remotes
Multi-threading in qs2
uses the Intel Thread Building Blocks
framework via the RcppParallel
package.
Because the qs2
format directly uses R serialization, you can convert it to RDS and vice versa.
tempfile(fileext = ".qs2")
file_qs2 <- tempfile(fileext = ".RDS")
file_rds <- runif(1e6)
x <-
# save `x` with qs_save
qs_save(x, file_qs2)
# convert the file to RDS
qs_to_rds(input_file = file_qs2, output_file = file_rds)
# read `x` back in with `readRDS`
readRDS(file_rds)
xrds <-stopifnot(identical(x, xrds))
The qs2
format saves an internal checksum. This can be used to test for file corruption before deserialization via the validate_checksum
parameter, but has a minor performance penalty.
qs_save(data, "myfile.qs2")
qs_read("myfile.qs2", validate_checksum = TRUE) data <-
The package also introduces the qdata
format which has its own serialization layout and works with only data types (vectors, lists, data frames, matrices).
It will replace internal types (functions, promises, external pointers, environments, objects) with NULL. The qdata
format differs from the qs2
format in that it is NOT a general.
The eventual goal of qdata
is to also have interoperability with other languages, particularly Python
.
qd_save(data, "myfile.qs2")
qd_read("myfile.qs2") data <-
A summary across 4 datasets is presented below.
Algorithm | Compression | Save Time (s) | Read Time (s) |
---|---|---|---|
qs2 | 7.96 | 13.4 | 50.4 |
qdata | 8.45 | 10.5 | 34.8 |
base::serialize | 1.1 | 8.87 | 51.4 |
saveRDS | 8.68 | 107 | 63.7 |
fst | 2.59 | 5.09 | 46.3 |
parquet | 8.29 | 20.3 | 38.4 |
qs (legacy) | 7.97 | 9.13 | 48.1 |
Algorithm | Compression | Save Time (s) | Read Time (s) |
---|---|---|---|
qs2 | 7.96 | 3.79 | 48.1 |
qdata | 8.45 | 1.98 | 33.1 |
fst | 2.59 | 5.05 | 46.6 |
parquet | 8.29 | 20.2 | 37.0 |
qs (legacy) | 7.97 | 3.21 | 52.0 |
qs2
, qdata
and qs
with compress_level = 3
parquet
via the arrow
package using zstd compression_level = 3
base::serialize
with ascii = FALSE
and xdr = FALSE
Datasets used
1000 genomes non-coding VCF
1000 genomes non-coding variants (2743 MB)B-cell data
B-cell mouse data, Greiff 2017 (1057 MB)IP location
IPV4 range data with location information (198 MB)Netflix movie ratings
Netflix ML prediction dataset (571 MB)These datasets are openly licensed and represent a combination of numeric and text data across multiple domains. See inst/analysis/datasets.R
on Github.
Serialization functions can be accessed in compiled code. Below is an example using Rcpp.
// [[Rcpp::depends(qs2)]]
#include <Rcpp.h>
#include "qs2_external.h"
using namespace Rcpp;
// [[Rcpp::export]]
SEXP test_qs_serialize(SEXP x) {size_t len = 0;
unsigned char * buffer = c_qs_serialize(x, &len, 10, true, 4); // object, buffer length, compress_level, shuffle, nthreads
false, 4); // buffer, buffer length, validate_checksum, nthreads
SEXP y = c_qs_deserialize(buffer, len, // must manually free buffer
c_qs_free(buffer); return y;
}
// [[Rcpp::export]]
SEXP test_qd_serialize(SEXP x) {size_t len = 0;
unsigned char * buffer = c_qd_serialize(x, &len, 10, true, 4); // object, buffer length, compress_level, shuffle, nthreads
false, false, 4); // buffer, buffer length, use_alt_rep, validate_checksum, nthreads
SEXP y = c_qd_deserialize(buffer, len, // must manually free buffer
c_qd_free(buffer); return y;
}
/*** R
x <- runif(1e7)
stopifnot(test_qs_serialize(x) == x)
stopifnot(test_qd_serialize(x) == x)
*/
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.