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stdlib-js · Dec 27, 2024 · 21c74e1 · 21c74e1
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diff --git a/CHANGELOG.md b/CHANGELOG.md
@@ -4,7 +4,7 @@
 
 <section class="release" id="unreleased">
 
-## Unreleased (2024-12-26)
+## Unreleased (2024-12-27)
 
 <section class="features">
 
@@ -33,6 +33,7 @@
 
 <details>
 
+-   [`bcd06cf`](https://github.com/stdlib-js/stdlib/commit/bcd06cfb0b7e8f4b0e623ebd462b77a3510e2795) - **docs:** update REPL namespace documentation [(#4267)](https://github.com/stdlib-js/stdlib/pull/4267) _(by stdlib-bot, Philipp Burckhardt)_
 -   [`87f80c5`](https://github.com/stdlib-js/stdlib/commit/87f80c54979f503d87b8a630a57a32ec461dda89) - **docs:** update REPL namespace documentation [(#4244)](https://github.com/stdlib-js/stdlib/pull/4244) _(by stdlib-bot)_
 -   [`4b70046`](https://github.com/stdlib-js/stdlib/commit/4b70046a90794cfab03c25c4a796edfd0c7a89a6) - **docs:** update REPL docs _(by Athan Reines)_
 -   [`54fb9de`](https://github.com/stdlib-js/stdlib/commit/54fb9de7dc776a7d01ca86de154d0f74694d1630) - **docs:** update REPL namespace documentation [(#3978)](https://github.com/stdlib-js/stdlib/pull/3978) _(by stdlib-bot, Philipp Burckhardt)_

diff --git a/data/data.csv b/data/data.csv
@@ -1768,8 +1768,8 @@ base.strided.dmediansorted,"\nbase.strided.dmediansorted( N:integer, x:Float64Ar
 base.strided.dmediansorted.ndarray,"\nbase.strided.dmediansorted.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the median value of a sorted double-precision floating-point\n    strided array using alternative indexing semantics.\n"
 base.strided.dmidrange,"\nbase.strided.dmidrange( N:integer, x:Float64Array, stride:integer )\n    Computes the mid-range of a double-precision floating-point strided array.\n"
 base.strided.dmidrange.ndarray,"\nbase.strided.dmidrange.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the mid-range of a double-precision floating-point strided array\n    using alternative indexing semantics.\n"
-base.strided.dmin,"\nbase.strided.dmin( N:integer, x:Float64Array, stride:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array.\n"
-base.strided.dmin.ndarray,"\nbase.strided.dmin.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array using alternative indexing semantics.\n"
+base.strided.dmin,"\nbase.strided.dmin( N:integer, x:Float64Array, strideX:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array.\n"
+base.strided.dmin.ndarray,"\nbase.strided.dmin.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array using alternative indexing semantics.\n"
 base.strided.dminabs,"\nbase.strided.dminabs( N:integer, x:Float64Array, strideX:integer )\n    Computes the minimum absolute value of a double-precision floating-point\n    strided array.\n"
 base.strided.dminabs.ndarray,"\nbase.strided.dminabs.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the minimum absolute value of a double-precision floating-point\n    strided array using alternative indexing semantics.\n"
 base.strided.dminsorted,"\nbase.strided.dminsorted( N:integer, x:Float64Array, stride:integer )\n    Computes the minimum value of a sorted double-precision floating-point\n    strided array.\n"
@@ -1810,10 +1810,10 @@ base.strided.dnanasum,"\nbase.strided.dnanasum( N:integer, x:Float64Array, strid
 base.strided.dnanasum.ndarray,"\nbase.strided.dnanasum.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the sum of absolute values (L1 norm) of double-precision floating-\n    point strided array elements, ignoring `NaN` values and using alternative\n    indexing semantics.\n"
 base.strided.dnanasumors,"\nbase.strided.dnanasumors( N:integer, x:Float64Array, strideX:integer )\n    Computes the sum of absolute values (L1 norm) of double-precision floating-\n    point strided array elements, ignoring `NaN` values and using ordinary\n    recursive summation.\n"
 base.strided.dnanasumors.ndarray,"\nbase.strided.dnanasumors.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the sum of absolute values (L1 norm) of double-precision floating-\n    point strided array elements, ignoring `NaN` values and using ordinary\n    recursive summation alternative indexing semantics.\n"
-base.strided.dnanmax,"\nbase.strided.dnanmax( N:integer, x:Float64Array, stride:integer )\n    Computes the maximum value of a double-precision floating-point strided\n    array, ignoring `NaN` values.\n"
-base.strided.dnanmax.ndarray,"\nbase.strided.dnanmax.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the maximum value of a double-precision floating-point strided\n    array, ignoring `NaN` values and using alternative indexing semantics.\n"
-base.strided.dnanmaxabs,"\nbase.strided.dnanmaxabs( N:integer, x:Float64Array, stride:integer )\n    Computes the maximum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values.\n"
-base.strided.dnanmaxabs.ndarray,"\nbase.strided.dnanmaxabs.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the maximum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values and using alternative indexing\n    semantics.\n"
+base.strided.dnanmax,"\nbase.strided.dnanmax( N:integer, x:Float64Array, strideX:integer )\n    Computes the maximum value of a double-precision floating-point strided\n    array, ignoring `NaN` values.\n"
+base.strided.dnanmax.ndarray,"\nbase.strided.dnanmax.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the maximum value of a double-precision floating-point strided\n    array, ignoring `NaN` values and using alternative indexing semantics.\n"
+base.strided.dnanmaxabs,"\nbase.strided.dnanmaxabs( N:integer, x:Float64Array, strideX:integer )\n    Computes the maximum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values.\n"
+base.strided.dnanmaxabs.ndarray,"\nbase.strided.dnanmaxabs.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the maximum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values and using alternative indexing\n    semantics.\n"
 base.strided.dnanmean,"\nbase.strided.dnanmean( N:integer, x:Float64Array, stride:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, ignoring `NaN` values.\n"
 base.strided.dnanmean.ndarray,"\nbase.strided.dnanmean.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, ignoring `NaN` values and using alternative indexing semantics.\n"
 base.strided.dnanmeanors,"\nbase.strided.dnanmeanors( N:integer, x:Float64Array, stride:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, ignoring `NaN` values and using ordinary recursive summation.\n"
@@ -1824,8 +1824,8 @@ base.strided.dnanmeanpw,"\nbase.strided.dnanmeanpw( N:integer, x:Float64Array, s
 base.strided.dnanmeanpw.ndarray,"\nbase.strided.dnanmeanpw.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, ignoring `NaN` values and using pairwise summation and alternative\n    indexing semantics.\n"
 base.strided.dnanmeanwd,"\nbase.strided.dnanmeanwd( N:integer, x:Float64Array, stride:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, using Welford's algorithm and ignoring `NaN` values.\n"
 base.strided.dnanmeanwd.ndarray,"\nbase.strided.dnanmeanwd.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the arithmetic mean of a double-precision floating-point strided\n    array, ignoring `NaN` values and using Welford's algorithm and alternative\n    indexing semantics.\n"
-base.strided.dnanmin,"\nbase.strided.dnanmin( N:integer, x:Float64Array, stride:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array, ignoring `NaN` values.\n"
-base.strided.dnanmin.ndarray,"\nbase.strided.dnanmin.ndarray( N:integer, x:Float64Array, stride:integer, \n  offset:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array, ignoring `NaN` values and using alternative indexing semantics.\n"
+base.strided.dnanmin,"\nbase.strided.dnanmin( N:integer, x:Float64Array, strideX:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array, ignoring `NaN` values.\n"
+base.strided.dnanmin.ndarray,"\nbase.strided.dnanmin.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the minimum value of a double-precision floating-point strided\n    array, ignoring `NaN` values and using alternative indexing semantics.\n"
 base.strided.dnanminabs,"\nbase.strided.dnanminabs( N:integer, x:Float64Array, strideX:integer )\n    Computes the minimum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values.\n"
 base.strided.dnanminabs.ndarray,"\nbase.strided.dnanminabs.ndarray( N:integer, x:Float64Array, strideX:integer, \n  offsetX:integer )\n    Computes the minimum absolute value of a double-precision floating-point\n    strided array, ignoring `NaN` values and using alternative indexing\n    semantics.\n"
 base.strided.dnanmskmax,"\nbase.strided.dnanmskmax( N:integer, x:Float64Array, strideX:integer, \n  mask:Uint8Array, strideMask:integer )\n    Computes the maximum value of a double-precision floating-point strided\n    array according to a mask, ignoring `NaN` values.\n"
@@ -2285,10 +2285,10 @@ base.strided.smap,"\nbase.strided.smap( N:integer, x:Float32Array, strideX:integ
 base.strided.smap.ndarray,"\nbase.strided.smap.ndarray( N:integer, x:Float32Array, strideX:integer, \n  offsetX:integer, y:Float32Array, strideY:integer, offsetY:integer, \n  fcn:Function )\n    Applies a unary function to a single-precision floating-point strided input\n    array and assigns results to a single-precision floating-point strided\n    output array using alternative indexing semantics.\n"
 base.strided.smap2,"\nbase.strided.smap2( N:integer, x:Float32Array, sx:integer, y:Float32Array, \n  sy:integer, z:Float32Array, sz:integer, fcn:Function )\n    Applies a binary function to single-precision floating-point strided input\n    arrays and assigns results to a single-precision floating-point strided\n    output array.\n"
 base.strided.smap2.ndarray,"\nbase.strided.smap2.ndarray( N:integer, x:Float32Array, sx:integer, ox:integer, \n  y:Float32Array, sy:integer, oy:integer, z:Float32Array, sz:integer, \n  oz:integer, fcn:Function )\n    Applies a binary function to single-precision floating-point strided input\n    arrays and assigns results to a single-precision floating-point strided\n    output array using alternative indexing semantics.\n"
-base.strided.smax,"\nbase.strided.smax( N:integer, x:Float32Array, stride:integer )\n    Computes the maximum value of a single-precision floating-point strided\n    array.\n"
-base.strided.smax.ndarray,"\nbase.strided.smax.ndarray( N:integer, x:Float32Array, stride:integer, \n  offset:integer )\n    Computes the maximum value of a single-precision floating-point strided\n    array using alternative indexing semantics.\n"
-base.strided.smaxabs,"\nbase.strided.smaxabs( N:integer, x:Float32Array, stride:integer )\n    Computes the maximum absolute value of a single-precision floating-point\n    strided array.\n"
-base.strided.smaxabs.ndarray,"\nbase.strided.smaxabs.ndarray( N:integer, x:Float32Array, stride:integer, \n  offset:integer )\n    Computes the maximum absolute value of a single-precision floating-point\n    strided array using alternative indexing semantics.\n"
+base.strided.smax,"\nbase.strided.smax( N:integer, x:Float32Array, strideX:integer )\n    Computes the maximum value of a single-precision floating-point strided\n    array.\n"
+base.strided.smax.ndarray,"\nbase.strided.smax.ndarray( N:integer, x:Float32Array, strideX:integer, \n  offsetX:integer )\n    Computes the maximum value of a single-precision floating-point strided\n    array using alternative indexing semantics.\n"
+base.strided.smaxabs,"\nbase.strided.smaxabs( N:integer, x:Float32Array, strideX:integer )\n    Computes the maximum absolute value of a single-precision floating-point\n    strided array.\n"
+base.strided.smaxabs.ndarray,"\nbase.strided.smaxabs.ndarray( N:integer, x:Float32Array, strideX:integer, \n  offsetX:integer )\n    Computes the maximum absolute value of a single-precision floating-point\n    strided array using alternative indexing semantics.\n"
 base.strided.smaxabssorted,"\nbase.strided.smaxabssorted( N:integer, x:Float32Array, stride:integer )\n    Computes the maximum absolute value of a sorted single-precision floating-\n    point strided array.\n"
 base.strided.smaxabssorted.ndarray,"\nbase.strided.smaxabssorted.ndarray( N:integer, x:Float32Array, stride:integer, \n  offset:integer )\n    Computes the maximum absolute value of a sorted single-precision floating-\n    point strided array using alternative indexing semantics.\n"
 base.strided.smaxsorted,"\nbase.strided.smaxsorted( N:integer, x:Float32Array, stride:integer )\n    Computes the maximum value of a sorted single-precision floating-point\n    strided array.\n"

diff --git a/data/data.json b/data/data.json
diff --git a/dist/index.js b/dist/index.js
diff --git a/dist/index.js.map b/dist/index.js.map