test: use strictEqual assertions

kgryte · kgryte · commit 160d653473e8 · 2025-09-14T02:28:35.000-07:00
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---
diff --git a/lib/node_modules/@stdlib/lapack/base/iladlr/test/test.iladlr.js b/lib/node_modules/@stdlib/lapack/base/iladlr/test/test.iladlr.js
@@ -148,7 +148,7 @@ tape( 'the function returns an invalid index (-1) when M is less than or equal t
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, 0, data.N, A, data.LDA );
 
-	t.deepEqual( out, -1, 'returns expected value' );
+	t.strictEqual( out, -1, 'returns expected value' );
 	t.end();
 });
 
@@ -162,7 +162,7 @@ tape( 'the function returns an invalid index (-1) when N is less than or equal t
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, data.M, 0, A, data.LDA );
 
-	t.deepEqual( out, -1, 'returns expected value' );
+	t.strictEqual( out, -1, 'returns expected value' );
 	t.end();
 });
 
@@ -176,7 +176,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, data.M, data.N, A, data.LDA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -190,7 +190,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, data.M, data.N, A, data.LDA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -204,7 +204,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, data.M, data.N, A, data.LDA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -218,6 +218,6 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.order, data.M, data.N, A, data.LDA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
diff --git a/lib/node_modules/@stdlib/lapack/base/iladlr/test/test.ndarray.js b/lib/node_modules/@stdlib/lapack/base/iladlr/test/test.ndarray.js
@@ -78,7 +78,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -92,7 +92,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -106,7 +106,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -120,7 +120,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -134,7 +134,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -148,7 +148,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -162,7 +162,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -176,7 +176,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -190,7 +190,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -204,7 +204,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -218,7 +218,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -232,7 +232,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -246,7 +246,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -260,7 +260,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -274,7 +274,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -288,7 +288,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -302,7 +302,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -316,7 +316,7 @@ tape( 'the function returns the expected zero-based index of the last non-zero r
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -330,7 +330,7 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
 
@@ -344,6 +344,6 @@ tape( 'the function returns an invalid index (-1) when all elements in a matrix
 	A = new Float64Array( data.A );
 	out = iladlr( data.M, data.N, A, data.strideA1, data.strideA2, data.offsetA );
 
-	t.deepEqual( out, data.expected, 'returns expected value' );
+	t.strictEqual( out, data.expected, 'returns expected value' );
 	t.end();
 });
