Add nucleotide-count

config.json

@@ -172,6 +172,14 @@
           "math"
         ]
       },
+      {
+        "slug": "nucleotide-count",
+        "name": "Nucleotide Count",
+        "uuid": "06ea660b-3869-46df-8fd3-a0651b66ed54",
+        "practices": [],
+        "prerequisites": [],
+        "difficulty": 2
+      },
       {
         "slug": "grains",
         "name": "Grains",

exercises/practice/nucleotide-count/.docs/instructions.md

@@ -0,0 +1,23 @@
+# Instructions
+
+Each of us inherits from our biological parents a set of chemical instructions known as DNA that influence how our bodies are constructed.
+All known life depends on DNA!
+
+> Note: You do not need to understand anything about nucleotides or DNA to complete this exercise.
+
+DNA is a long chain of other chemicals and the most important are the four nucleotides, adenine, cytosine, guanine and thymine.
+A single DNA chain can contain billions of these four nucleotides and the order in which they occur is important!
+We call the order of these nucleotides in a bit of DNA a "DNA sequence".
+
+We represent a DNA sequence as an ordered collection of these four nucleotides and a common way to do that is with a string of characters such as "ATTACG" for a DNA sequence of 6 nucleotides.
+'A' for adenine, 'C' for cytosine, 'G' for guanine, and 'T' for thymine.
+
+Given a string representing a DNA sequence, count how many of each nucleotide is present.
+If the string contains characters that aren't A, C, G, or T then it is invalid and you should signal an error.
+
+For example:
+
+```text
+"GATTACA" -> 'A': 3, 'C': 1, 'G': 1, 'T': 2
+"INVALID" -> error
+```

exercises/practice/nucleotide-count/.meta/config.json

@@ -0,0 +1,19 @@
+{
+  "authors": [
+    "BNAndras"
+  ],
+  "files": {
+    "solution": [
+      "lib/nucleotide_count.dart"
+    ],
+    "test": [
+      "test/nucleotide_count_test.dart"
+    ],
+    "example": [
+      ".meta/lib/example.dart"
+    ]
+  },
+  "blurb": "Given a DNA string, compute how many times each nucleotide occurs in the string.",
+  "source": "The Calculating DNA Nucleotides_problem at Rosalind",
+  "source_url": "https://rosalind.info/problems/dna/"
+}

exercises/practice/nucleotide-count/.meta/lib/example.dart

@@ -0,0 +1,15 @@
+class NucleotideCount {
+  Map<String, int> count(String strand) {
+    final result = {"A": 0, "C": 0, "G": 0, "T": 0};
+
+    for (final nucleotide in strand.split('')) {
+      if (!result.containsKey(nucleotide)) {
+        throw ArgumentError('Invalid nucleotide: $nucleotide');
+      }
+
+      result[nucleotide] = result[nucleotide]! + 1;
+    }
+
+    return result;
+  }
+}

exercises/practice/nucleotide-count/.meta/tests.toml

@@ -0,0 +1,25 @@
+# This is an auto-generated file.
+#
+# Regenerating this file via `configlet sync` will:
+# - Recreate every `description` key/value pair
+# - Recreate every `reimplements` key/value pair, where they exist in problem-specifications
+# - Remove any `include = true` key/value pair (an omitted `include` key implies inclusion)
+# - Preserve any other key/value pair
+#
+# As user-added comments (using the # character) will be removed when this file
+# is regenerated, comments can be added via a `comment` key.
+
+[3e5c30a8-87e2-4845-a815-a49671ade970]
+description = "empty strand"
+
+[a0ea42a6-06d9-4ac6-828c-7ccaccf98fec]
+description = "can count one nucleotide in single-character input"
+
+[eca0d565-ed8c-43e7-9033-6cefbf5115b5]
+description = "strand with repeated nucleotide"
+
+[40a45eac-c83f-4740-901a-20b22d15a39f]
+description = "strand with multiple nucleotides"
+
+[b4c47851-ee9e-4b0a-be70-a86e343bd851]
+description = "strand with invalid nucleotides"

exercises/practice/nucleotide-count/analysis_options.yaml

@@ -0,0 +1,18 @@
+analyzer:
+  strong-mode:
+    implicit-casts: false
+    implicit-dynamic: false
+  errors:
+    unused_element:        error
+    unused_import:         error
+    unused_local_variable: error
+    dead_code:             error
+
+linter:
+  rules:
+    # Error Rules
+    - avoid_relative_lib_imports
+    - avoid_types_as_parameter_names
+    - literal_only_boolean_expressions
+    - no_adjacent_strings_in_list
+    - valid_regexps

exercises/practice/nucleotide-count/lib/nucleotide_count.dart

@@ -0,0 +1,3 @@
+class NucleotideCount {
+  // Put your code here
+}

exercises/practice/nucleotide-count/pubspec.yaml

@@ -0,0 +1,5 @@
+name: 'nucleotide_count'
+environment:
+  sdk: '>=3.2.0 <4.0.0'
+dev_dependencies:
+  test: '<2.0.0'

exercises/practice/nucleotide-count/test/nucleotide_count_test.dart

@@ -0,0 +1,41 @@
+import 'package:nucleotide_count/nucleotide_count.dart';
+import 'package:test/test.dart';
+
+void main() {
+  final counter = NucleotideCount();
+
+  group('NucleotideCount', () {
+    test('Empty strand', () {
+      final strand = "";
+      final result = counter.count(strand);
+      final expected = {"A": 0, "C": 0, "G": 0, "T": 0};
+      expect(result, equals(expected));
+    }, skip: false);
+
+    test('Can count one nucleotide in single-character input', () {
+      final strand = "G";
+      final result = counter.count(strand);
+      final expected = {"A": 0, "C": 0, "G": 1, "T": 0};
+      expect(result, equals(expected));
+    }, skip: true);
+
+    test('Strand with repeated nucleotide', () {
+      final strand = "GGGGGGG";
+      final result = counter.count(strand);
+      final expected = {"A": 0, "C": 0, "G": 7, "T": 0};
+      expect(result, equals(expected));
+    }, skip: true);
+
+    test('Strand with multiple nucleotides', () {
+      final strand = "AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC";
+      final result = counter.count(strand);
+      final expected = {"A": 20, "C": 12, "G": 17, "T": 21};
+      expect(result, equals(expected));
+    }, skip: true);
+
+    test('Handles invalid nucleotides', () {
+      final strand = "AGXXACT";
+      expect(() => counter.count(strand), throwsArgumentError);
+    }, skip: true);
+  });
+}