FloatingArray#
-
class pandas::FloatingArray#
Extension array type for specialized data storage.
Example#
#include <pandas/pandas.h>
using namespace pandas;
// Use FloatingArray
FloatingArray obj;
// ... operations ...
Constructors#
Signature |
Location |
Example |
|---|---|---|
|
pd_floating_array.h:71 |
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|
pd_floating_array.h:85 |
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|
pd_floating_array.h:117 |
Construction#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
static FloatingArray<T> |
pd_floating_array.h:322 |
Indexing / Selection#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
T |
pd_floating_array.h:219 |
|
|
const numpy::NDArray<numpy::bool_>& |
pd_floating_array.h:199 |
|
|
FloatingArray<T> |
pd_floating_array.h:269 |
Data Manipulation#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
FloatingArray<T> |
pd_floating_array.h:372 |
Missing Data#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
FloatingArray<T> |
pd_floating_array.h:358 |
|
|
numpy::NDArray<numpy::bool_> |
pd_floating_array.h:241 |
|
|
numpy::NDArray<numpy::bool_> |
pd_floating_array.h:442 |
|
|
numpy::NDArray<numpy::bool_> |
pd_floating_array.h:248 |
Statistics#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
size_t |
pd_floating_array.h:413 |
|
|
std::optional<T> |
pd_floating_array.h:793 |
|
|
std::optional<double> |
pd_floating_array.h:752 |
|
|
std::optional<T> |
pd_floating_array.h:773 |
|
|
std::optional<T> |
pd_floating_array.h:845 |
|
|
std::optional<double> |
pd_floating_array.h:813 |
|
|
std::optional<T> |
pd_floating_array.h:731 |
|
|
std::optional<double> |
pd_floating_array.h:822 |
Comparison#
Sorting#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
numpy::NDArray<size_t> |
pd_floating_array.h:554 |
Combining#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
static FloatingArray<T> |
pd_floating_array.h:329 |
I/O#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
numpy::NDArray<U> |
pd_floating_array.h:386 |
|
|
numpy::NDArray<U> |
pd_floating_array.h:404 |
|
|
std::string |
pd_floating_array.h:963 |
Conversion#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
FloatingArray<T> |
pd_floating_array.h:259 |
Set Operations#
Type Checking#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
bool |
pd_floating_array.h:230 |
Other Methods#
Signature |
Return Type |
Location |
Example |
|---|---|---|---|
|
bool |
pd_floating_array.h:878 |
|
|
bool |
pd_floating_array.h:866 |
|
|
std::optional<size_t> |
pd_floating_array.h:604 |
|
|
std::optional<size_t> |
pd_floating_array.h:585 |
|
|
FloatingArray<T> |
pd_floating_array.h:1024 |
|
|
FloatingArray<T> |
pd_floating_array.h:930 |
|
|
void |
pd_floating_array.h:1014 |
|
|
const numpy::NDArray<T>& |
pd_floating_array.h:192 |
|
|
dtype_type |
pd_floating_array.h:139 |
|
|
bool |
pd_floating_array.h:174 |
|
|
std::pair<numpy::NDArray<numpy::int64>, FloatingArray<T>> |
pd_floating_array.h:518 |
|
|
FloatingArray<T> |
pd_floating_array.h:913 |
|
|
bool |
pd_floating_array.h:426 |
|
|
numpy::NDArray<numpy::bool_> |
pd_floating_array.h:472 |
|
|
size_t |
pd_floating_array.h:153 |
|
|
constexpr int |
pd_floating_array.h:160 |
|
|
pd_floating_array.h:1074 |
||
|
pd_floating_array.h:1090 |
||
|
std::string |
pd_floating_array.h:980 |
|
|
FloatingArray<T> |
pd_floating_array.h:894 |
|
|
numpy::NDArray<numpy::bool_> |
pd_floating_array.h:1082 |
|
|
FloatingArray<T> |
pd_floating_array.h:1045 |
|
|
std::vector<size_t> |
pd_floating_array.h:167 |
|
|
size_t |
pd_floating_array.h:146 |
|
|
void |
pd_floating_array.h:993 |
Internal Methods#
1 internal methods (prefixed with underscore)
Code Examples#
The following examples are extracted from the test suite.
at (pd_test_1_all.cpp:6581)
6571 // Test isna/notna with float data
6572 {
6573 std::map<std::string, std::vector<numpy::float64>> float_data;
6574 float_data["X"] = {1.0, std::nan(""), 3.0};
6575 float_data["Y"] = {4.0, 5.0, std::nan("")};
6576 pandas::DataFrame df_na(float_data);
6577
6578 auto na_mask = df_na.isna();
6579 // Row 1, col 0 (X) should be NA
6580 if (!na_mask.getElementAt({1, 0})) {
6581 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : isna at (1,0) should be true" << std::endl;
6582 throw std::runtime_error("pd_test_dataframe_manipulation failed: isna at (1,0)");
6583 }
6584 // Row 2, col 1 (Y) should be NA
6585 if (!na_mask.getElementAt({2, 1})) {
6586 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : isna at (2,1) should be true" << std::endl;
6587 throw std::runtime_error("pd_test_dataframe_manipulation failed: isna at (2,1)");
6588 }
6589 // Row 0, col 0 should NOT be NA
6590 if (na_mask.getElementAt({0, 0})) {
6591 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : isna at (0,0) should be false" << std::endl;
mask (pd_test_1_all.cpp:9119)
9109void pd_test_datetime_mixin_array_constructor() {
9110 std::cout << "========= DatetimeTDMixin array constructor =========================";
9111
9112 // Create DatetimeArray with some values
9113 numpy::NDArray<numpy::datetime64> data(std::vector<size_t>{3});
9114 data.setElementAt({0}, numpy::datetime64(1000000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2001
9115 data.setElementAt({1}, numpy::datetime64(1500000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2017
9116 data.setElementAt({2}, numpy::datetime64(1600000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2020
9117
9118 numpy::NDArray<numpy::bool_> mask(std::vector<size_t>{3});
9119 mask.setElementAt({0}, numpy::bool_(false));
9120 mask.setElementAt({1}, numpy::bool_(false));
9121 mask.setElementAt({2}, numpy::bool_(false));
9122
9123 pandas::DatetimeArray arr(data, mask);
9124 pandas::DatetimeTDMixin idx(arr, "timestamps");
9125
9126 bool passed = (idx.size() == 3 && !idx.empty() &&
9127 idx.name().has_value() && *idx.name() == "timestamps" &&
9128 idx.inferred_type() == "datetime");
take (pd_test_1_all.cpp:5903)
5893// Inherited Operations Tests
5894// ============================================================================
5895
5896void pd_test_categorical_index_take() {
5897 std::cout << "========= inherited take ==============================";
5898
5899 pandas::CategoricalArray arr({"a", "b", "c", "d"});
5900 pandas::CategoricalIndex idx(arr);
5901
5902 std::vector<size_t> indices = {0, 2, 3};
5903 pandas::ExtensionIndex<pandas::CategoricalArray> taken = idx.take(indices);
5904
5905 bool passed = (taken.size() == 3);
5906 if (!passed) {
5907 std::cout << " [FAIL] : in pd_test_categorical_index_take()" << std::endl;
5908 throw std::runtime_error("pd_test_categorical_index_take failed");
5909 }
5910
5911 std::cout << " -> tests passed" << std::endl;
5912}
dropna (pd_test_1_all.cpp:531)
521 }
522
523 // Test isna array
524 numpy::NDArray<numpy::bool_> na_mask = arr.isna();
525 if (na_mask.getSize() != 4) {
526 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : isna size != 4" << std::endl;
527 throw std::runtime_error("pd_test_categorical_array_na_handling failed: isna size != 4");
528 }
529
530 // Test dropna
531 pandas::CategoricalArray dropped = arr.dropna();
532 if (dropped.size() != 2) {
533 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : dropna size != 2" << std::endl;
534 throw std::runtime_error("pd_test_categorical_array_na_handling failed: dropna size != 2");
535 }
536
537 // Test fillna (fill with existing category)
538 pandas::CategoricalArray filled = arr.fillna("a"); // 'a' is in categories
539 if (filled.has_na()) {
540 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : fillna should have no NA" << std::endl;
541 throw std::runtime_error("pd_test_categorical_array_na_handling failed: fillna should have no NA");
fillna (pd_test_1_all.cpp:537)
527 throw std::runtime_error("pd_test_categorical_array_na_handling failed: isna size != 4");
528 }
529
530 // Test dropna
531 pandas::CategoricalArray dropped = arr.dropna();
532 if (dropped.size() != 2) {
533 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : dropna size != 2" << std::endl;
534 throw std::runtime_error("pd_test_categorical_array_na_handling failed: dropna size != 2");
535 }
536
537 // Test fillna (fill with existing category)
538 pandas::CategoricalArray filled = arr.fillna("a"); // 'a' is in categories
539 if (filled.has_na()) {
540 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : fillna should have no NA" << std::endl;
541 throw std::runtime_error("pd_test_categorical_array_na_handling failed: fillna should have no NA");
542 }
543
544 std::cout << " -> tests passed" << std::endl;
545 }
546
547 void pd_test_categorical_array_add_categories() {
isna (pd_test_1_all.cpp:524)
514 throw std::runtime_error("pd_test_categorical_array_na_handling failed: has_na() should be true");
515 }
516
517 // Test count (non-NA)
518 if (arr.count() != 2) {
519 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : count() != 2" << std::endl;
520 throw std::runtime_error("pd_test_categorical_array_na_handling failed: count() != 2");
521 }
522
523 // Test isna array
524 numpy::NDArray<numpy::bool_> na_mask = arr.isna();
525 if (na_mask.getSize() != 4) {
526 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : isna size != 4" << std::endl;
527 throw std::runtime_error("pd_test_categorical_array_na_handling failed: isna size != 4");
528 }
529
530 // Test dropna
531 pandas::CategoricalArray dropped = arr.dropna();
532 if (dropped.size() != 2) {
533 std::cout << " [FAIL] : in pd_test_categorical_array_na_handling() : dropna size != 2" << std::endl;
534 throw std::runtime_error("pd_test_categorical_array_na_handling failed: dropna size != 2");
notna (pd_test_1_all.cpp:6595)
6585 if (!na_mask.getElementAt({2, 1})) {
6586 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : isna at (2,1) should be true" << std::endl;
6587 throw std::runtime_error("pd_test_dataframe_manipulation failed: isna at (2,1)");
6588 }
6589 // Row 0, col 0 should NOT be NA
6590 if (na_mask.getElementAt({0, 0})) {
6591 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : isna at (0,0) should be false" << std::endl;
6592 throw std::runtime_error("pd_test_dataframe_manipulation failed: isna at (0,0)");
6593 }
6594
6595 auto notna_mask = df_na.notna();
6596 if (notna_mask.getElementAt({1, 0})) {
6597 std::cout << " [FAIL] : in pd_test_dataframe_manipulation() : notna at (1,0) should be false" << std::endl;
6598 throw std::runtime_error("pd_test_dataframe_manipulation failed: notna at (1,0)");
6599 }
6600 }
6601
6602 // Test fillna
6603 {
6604 std::map<std::string, std::vector<numpy::float64>> float_data;
6605 float_data["X"] = {1.0, std::nan(""), 3.0};
count (pd_test_1_all.cpp:66)
56 if (arr.is_na(0)) {
57 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : is_na(0) should be false" << std::endl;
58 throw std::runtime_error("pd_test_boolean_array_na_handling failed: is_na(0) should be false");
59 }
60
61 if (!arr.has_na()) {
62 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : has_na() should be true" << std::endl;
63 throw std::runtime_error("pd_test_boolean_array_na_handling failed: has_na() should be true");
64 }
65
66 if (arr.count() != 2) {
67 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : count() should be 2" << std::endl;
68 throw std::runtime_error("pd_test_boolean_array_na_handling failed: count() should be 2");
69 }
70
71 std::cout << " -> tests passed" << std::endl;
72 }
73
74 void pd_test_boolean_array_kleene_and() {
75 std::cout << "========= BooleanArray: Kleene AND ======================= ";
max (pd_test_1_all.cpp:771)
761 pandas::CategoricalArray arr = pandas::CategoricalArray::from_codes(codes, cats, true); // ordered
762
763 // Test min
764 std::optional<std::string> min_val = arr.min();
765 if (!min_val.has_value() || *min_val != "low") {
766 std::cout << " [FAIL] : in pd_test_categorical_array_ordered_operations() : min != 'low'" << std::endl;
767 throw std::runtime_error("pd_test_categorical_array_ordered_operations failed: min != 'low'");
768 }
769
770 // Test max
771 std::optional<std::string> max_val = arr.max();
772 if (!max_val.has_value() || *max_val != "high") {
773 std::cout << " [FAIL] : in pd_test_categorical_array_ordered_operations() : max != 'high'" << std::endl;
774 throw std::runtime_error("pd_test_categorical_array_ordered_operations failed: max != 'high'");
775 }
776
777 // Test unordered throws for min/max
778 pandas::CategoricalArray unordered = arr.as_unordered();
779 bool threw = false;
780 try {
781 unordered.min();
mean (pd_test_1_all.cpp:282)
272 std::optional<bool>(true),
273 std::optional<bool>(true)
274 });
275
276 auto s = arr.sum();
277 if (!s.has_value() || s.value() != 3) {
278 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : sum should be 3" << std::endl;
279 throw std::runtime_error("pd_test_boolean_array_reductions failed: sum");
280 }
281
282 auto m = arr.mean();
283 if (!m.has_value() || std::abs(m.value() - 0.75) > 0.001) {
284 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : mean should be 0.75" << std::endl;
285 throw std::runtime_error("pd_test_boolean_array_reductions failed: mean");
286 }
287
288 std::cout << " -> tests passed" << std::endl;
289 }
290
291 void pd_test_boolean_array_dtype() {
292 std::cout << "========= BooleanArray: dtype ======================= ";
min (pd_test_1_all.cpp:764)
754 }
755
756 void pd_test_categorical_array_ordered_operations() {
757 std::cout << "========= CategoricalArray: ordered operations (min/max) ======================= ";
758
759 std::vector<std::string> cats = {"low", "medium", "high"};
760 std::vector<numpy::int32> codes = {0, 2, 1, 0, -1}; // low, high, medium, low, NA
761 pandas::CategoricalArray arr = pandas::CategoricalArray::from_codes(codes, cats, true); // ordered
762
763 // Test min
764 std::optional<std::string> min_val = arr.min();
765 if (!min_val.has_value() || *min_val != "low") {
766 std::cout << " [FAIL] : in pd_test_categorical_array_ordered_operations() : min != 'low'" << std::endl;
767 throw std::runtime_error("pd_test_categorical_array_ordered_operations failed: min != 'low'");
768 }
769
770 // Test max
771 std::optional<std::string> max_val = arr.max();
772 if (!max_val.has_value() || *max_val != "high") {
773 std::cout << " [FAIL] : in pd_test_categorical_array_ordered_operations() : max != 'high'" << std::endl;
774 throw std::runtime_error("pd_test_categorical_array_ordered_operations failed: max != 'high'");
prod (pd_test_1_all.cpp:26082)
26072 std::cout << "====================================== [OK] pd_test_pivot_table test suite ========================== " << std::endl;
26073 return 0;
26074 }
26075
26076} // namespace dataframe_tests
26077// ------------------- pd_test_pivot_table.cpp (end) -----------------------------
26078
26079// ------------------- pd_test_prod.cpp (start) -----------------------------
26080// dataframe_tests/pd_test_prod.cpp
26081// Tests for DataFrame.prod() and DataFrame.prod_cols() methods
26082
26083#include <iostream>
26084#include <stdexcept>
26085#include <cmath>
26086#include <limits>
26087#include "../pandas/pd_dataframe.h"
26088
26089// CRITICAL: No using namespace directives
26090
26091namespace dataframe_tests {
std (pd_test_1_all.cpp:4526)
4516#include "../pandas/pd_series.h"
4517
4518namespace dataframe_tests {
4519 namespace dataframe_tests_aggregation {
4520
4521 void pd_test_aggregation_series_sem() {
4522 std::cout << "========= Series sem ============================";
4523
4524 pandas::Series<double> s({1.0, 2.0, 3.0, 4.0, 5.0});
4525 auto sem_val = s.sem();
4526 // std(ddof=1) = sqrt(2.5), sem = sqrt(2.5)/sqrt(5) ≈ 0.707
4527 bool passed = sem_val.has_value() && std::abs(*sem_val - 0.707) < 0.01;
4528 if (!passed) {
4529 std::cout << " [FAIL] : in pd_test_aggregation_series_sem() : sem value incorrect" << std::endl;
4530 throw std::runtime_error("pd_test_aggregation_series_sem failed: sem value incorrect");
4531 }
4532
4533 std::cout << " -> tests passed" << std::endl;
4534 }
4535
4536 void pd_test_aggregation_series_quantile() {
sum (pd_test_1_all.cpp:276)
266 }
267
268 // Test sum/mean
269 pandas::BooleanArray arr({
270 std::optional<bool>(true),
271 std::optional<bool>(false),
272 std::optional<bool>(true),
273 std::optional<bool>(true)
274 });
275
276 auto s = arr.sum();
277 if (!s.has_value() || s.value() != 3) {
278 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : sum should be 3" << std::endl;
279 throw std::runtime_error("pd_test_boolean_array_reductions failed: sum");
280 }
281
282 auto m = arr.mean();
283 if (!m.has_value() || std::abs(m.value() - 0.75) > 0.001) {
284 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : mean should be 0.75" << std::endl;
285 throw std::runtime_error("pd_test_boolean_array_reductions failed: mean");
286 }
var (pd_test_1_all.cpp:20890)
20880 throw std::runtime_error("pd_test_expanding_std failed: expanding std values incorrect");
20881 }
20882
20883 std::cout << " -> tests passed" << std::endl;
20884 }
20885
20886 void pd_test_expanding_var() {
20887 std::cout << "========= Expanding var =========================";
20888
20889 pandas::Series<double> s({1.0, 2.0, 3.0, 4.0, 5.0});
20890 auto result = s.expanding().var();
20891
20892 // Expanding var (ddof=1): NaN, 0.5, 1.0, 1.6667, 2.5
20893 bool passed = std::isnan(result[0]) &&
20894 std::abs(result[1] - 0.5) < 0.001 &&
20895 std::abs(result[2] - 1.0) < 0.001 &&
20896 std::abs(result[3] - 1.6667) < 0.001 &&
20897 std::abs(result[4] - 2.5) < 0.001;
20898 if (!passed) {
20899 std::cout << " [FAIL] : in pd_test_expanding_var() : expanding var values incorrect" << std::endl;
20900 throw std::runtime_error("pd_test_expanding_var failed: expanding var values incorrect");
len (pd_test_3_all.cpp:20867)
20857 auto title_result = s.str().title();
20858 if (title_result[0] != "Hello World" || title_result[1] != "Hello World" || title_result[2] != "Hello World") {
20859 std::cout << " [FAIL] : title() failed" << std::endl;
20860 throw std::runtime_error("pd_test_str_capitalize_title: title() failed");
20861 }
20862
20863 std::cout << " -> tests passed" << std::endl;
20864}
20865
20866// ============================================================================
20867// Test str().len()
20868// ============================================================================
20869
20870void pd_test_str_len() {
20871 std::cout << "========= Series.str().len() ============================";
20872
20873 pandas::Series<std::string> s({"a", "bb", "ccc", ""});
20874
20875 auto lens = s.str().len();
20876 if (lens[0] != 1 || lens[1] != 2 || lens[2] != 3 || lens[3] != 0) {
20877 std::cout << " [FAIL] : len() failed" << std::endl;
argsort (pd_test_1_all.cpp:1304)
1294 std::cout << "========= DatetimeArray: sorting ======================= ";
1295
1296 pandas::DatetimeArray arr(std::vector<std::string>{
1297 "2023-06-15",
1298 "NaT",
1299 "2023-01-01",
1300 "2023-12-31"
1301 });
1302
1303 // argsort ascending
1304 auto indices = arr.argsort(true, "last");
1305 // Expected order: 2023-01-01(2), 2023-06-15(0), 2023-12-31(3), NaT(1)
1306 if (indices.getElementAt({0}) != 2) {
1307 std::cout << " [FAIL] : argsort: first should be index 2 (2023-01-01)" << std::endl;
1308 throw std::runtime_error("pd_test_datetime_array_sorting failed: argsort first");
1309 }
1310 if (indices.getElementAt({3}) != 1) {
1311 std::cout << " [FAIL] : argsort: last should be index 1 (NaT)" << std::endl;
1312 throw std::runtime_error("pd_test_datetime_array_sorting failed: NaT position");
1313 }
concat (pd_test_1_all.cpp:17717)
17707}
17708
17709void pd_test_period_index_concat() {
17710 std::cout << "========= concat factory ==============================";
17711
17712 std::vector<int64_t> ordinals1 = {0, 1};
17713 std::vector<int64_t> ordinals2 = {2, 3};
17714 pandas::PeriodIndex idx1(ordinals1, "D");
17715 pandas::PeriodIndex idx2(ordinals2, "D");
17716
17717 pandas::PeriodIndex concatenated = pandas::PeriodIndex::concat({idx1, idx2});
17718
17719 bool passed = (concatenated.size() == 4);
17720 if (!passed) {
17721 std::cout << " [FAIL] : in pd_test_period_index_concat()" << std::endl;
17722 throw std::runtime_error("pd_test_period_index_concat failed");
17723 }
17724
17725 std::cout << " -> tests passed" << std::endl;
17726}
to_numpy (pd_test_1_all.cpp:16764)
16754 // =====================================================================
16755 // to_numpy Tests
16756 // =====================================================================
16757
16758 void pd_test_ndframe_to_numpy() {
16759 std::cout << "========= to_numpy =============================================" << std::endl;
16760
16761 pandas::Series<int> s({10, 20, 30});
16762
16763 auto arr = s.to_numpy();
16764
16765 bool passed = arr.getSize() == 3;
16766 if (!passed) {
16767 std::cout << " [FAIL] : in pd_test_ndframe_to_numpy() : size" << std::endl;
16768 throw std::runtime_error("pd_test_ndframe_to_numpy failed: size");
16769 }
16770
16771 passed = arr.getElementAt({0}) == 10 && arr.getElementAt({1}) == 20 && arr.getElementAt({2}) == 30;
16772 if (!passed) {
16773 std::cout << " [FAIL] : in pd_test_ndframe_to_numpy() : values" << std::endl;
to_numpy_nan (pd_test_5_all.cpp:121633)
121623 r.setElementAt({0}, -77.0);
121624 auto r2 = arr.to_numpy<numpy::float64>(/*copy=*/true);
121625 pandas_tests::check(r2.getElementAt({0}) == 1.0, "copy_isolated_from_mutation", local_fail);
121626}
121627
121628void boolean_mask_indexing_689417_case_82_floatarr_to_numpy_nan_default_substitutes_nan(int& local_fail) {
121629 std::cout << "-- boolean_mask_indexing_689417_case_82_floatarr_to_numpy_nan_default_substitutes_nan\n";
121630 pandas::FloatingArray<numpy::float64> arr({std::optional<numpy::float64>{1.5},
121631 std::optional<numpy::float64>{},
121632 std::optional<numpy::float64>{3.5}});
121633 auto r = arr.to_numpy_nan();
121634 pandas_tests::check(r.getSize() == 3, "size", local_fail);
121635 pandas_tests::check(r.getElementAt({0}) == 1.5, "idx0", local_fail);
121636 pandas_tests::check(std::isnan(r.getElementAt({1})), "na_position_is_nan", local_fail);
121637 pandas_tests::check(r.getElementAt({2}) == 3.5, "idx2", local_fail);
121638}
121639
121640void boolean_mask_indexing_689417_case_83_floatarr_to_numpy_nan_no_na_matches_data(int& local_fail) {
121641 std::cout << "-- boolean_mask_indexing_689417_case_83_floatarr_to_numpy_nan_no_na_matches_data\n";
121642 pandas::FloatingArray<numpy::float64> arr({std::optional<numpy::float64>{1.0},
121643 std::optional<numpy::float64>{2.0},
to_string (pd_test_1_all.cpp:2693)
2683 pandas::PeriodArray arr_m(std::vector<std::string>{
2684 "2020-01",
2685 "NaT",
2686 "2025-06"
2687 }, "M");
2688
2689 // Year
2690 auto years = arr_m.year();
2691 auto y0 = years[0];
2692 if (!y0.has_value() || y0.value() != 2020) {
2693 std::cout << " [FAIL] : year[0] should be 2020, got " << (y0.has_value() ? std::to_string(y0.value()) : "NA") << std::endl;
2694 throw std::runtime_error("pd_test_period_array_year_month_quarter failed: year[0]");
2695 }
2696
2697 auto y1 = years[1];
2698 if (y1.has_value()) {
2699 std::cout << " [FAIL] : year[1] should be NA (NaT)" << std::endl;
2700 throw std::runtime_error("pd_test_period_array_year_month_quarter failed: year[1] should be NA");
2701 }
2702
2703 auto y2 = years[2];
copy (pd_test_1_all.cpp:5798)
5788// ============================================================================
5789// Copy/Rename Tests
5790// ============================================================================
5791
5792void pd_test_categorical_index_copy() {
5793 std::cout << "========= copy ========================================";
5794
5795 pandas::CategoricalArray arr({"a", "b", "c"});
5796 pandas::CategoricalIndex idx(arr, "original");
5797
5798 pandas::CategoricalIndex copied = idx.copy();
5799
5800 bool passed = (copied.size() == idx.size() && copied.name() == idx.name() &&
5801 copied.categories() == idx.categories() && copied.ordered() == idx.ordered());
5802 if (!passed) {
5803 std::cout << " [FAIL] : in pd_test_categorical_index_copy()" << std::endl;
5804 throw std::runtime_error("pd_test_categorical_index_copy failed");
5805 }
5806
5807 std::cout << " -> tests passed" << std::endl;
5808}
isinf (pd_test_2_all.cpp:7430)
7420#include "../pandas/pd_dataframe.h"
7421
7422// CRITICAL: No using namespace directives
7423
7424namespace dataframe_tests {
7425 namespace dataframe_tests_radd {
7426
7427 // Helper function to check if two doubles are approximately equal
7428 bool approx_equal(double a, double b, double tol = 1e-9) {
7429 if (std::isnan(a) && std::isnan(b)) return true;
7430 if (std::isinf(a) && std::isinf(b)) return (a > 0) == (b > 0);
7431 return std::abs(a - b) < tol;
7432 }
7433
7434 // Helper to get double value from DataFrame at position
7435 double get_val(const pandas::DataFrame& df, size_t row, size_t col) {
7436 return df.iloc<numpy::float64>(row, col);
7437 }
7438
7439 void pd_test_radd_scalar() {
7440 std::cout << "========= radd() with scalar =====================";
unique (pd_test_1_all.cpp:1345)
1335 pandas::DatetimeArray arr(std::vector<std::string>{
1336 "2023-01-01",
1337 "2023-06-15",
1338 "2023-01-01",
1339 "NaT",
1340 "2023-06-15",
1341 "NaT"
1342 });
1343
1344 // unique
1345 auto uniq = arr.unique();
1346 // Should have: NaT, 2023-01-01, 2023-06-15 (3 unique values)
1347 if (uniq.size() != 3) {
1348 std::cout << " [FAIL] : unique size should be 3, got " << uniq.size() << std::endl;
1349 throw std::runtime_error("pd_test_datetime_array_unique failed: size");
1350 }
1351
1352 // factorize
1353 auto [codes, uniques] = arr.factorize();
1354 // Codes for NaT should be -1
1355 if (codes.getElementAt({3}) != -1) {
is_na (pd_test_1_all.cpp:51)
41 void pd_test_boolean_array_na_handling() {
42 std::cout << "========= BooleanArray: NA handling ======================= ";
43
44 pandas::BooleanArray arr({
45 std::optional<bool>(true),
46 std::nullopt, // NA at index 1
47 std::optional<bool>(false)
48 });
49
50 if (!arr.is_na(1)) {
51 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : is_na(1) should be true" << std::endl;
52 throw std::runtime_error("pd_test_boolean_array_na_handling failed: is_na(1) should be true");
53 }
54
55 if (arr.is_na(0)) {
56 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : is_na(0) should be false" << std::endl;
57 throw std::runtime_error("pd_test_boolean_array_na_handling failed: is_na(0) should be false");
58 }
59
60 if (!arr.has_na()) {
all (pd_test_1_all.cpp:247)
237 pandas::BooleanArray has_true({
238 std::optional<bool>(false),
239 std::optional<bool>(true)
240 });
241 any_result = has_true.any();
242 if (!any_result.has_value() || !any_result.value()) {
243 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : any() with True" << std::endl;
244 throw std::runtime_error("pd_test_boolean_array_reductions failed: any() with True");
245 }
246
247 // Test all()
248 pandas::BooleanArray all_true({
249 std::optional<bool>(true),
250 std::optional<bool>(true)
251 });
252 auto all_result = all_true.all();
253 if (!all_result.has_value() || !all_result.value()) {
254 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : all() of all True" << std::endl;
255 throw std::runtime_error("pd_test_boolean_array_reductions failed: all() all True");
256 }
any (pd_test_1_all.cpp:226)
216 std::cout << " [FAIL] : in pd_test_boolean_array_kleene_not() : ~NA should be NA" << std::endl;
217 throw std::runtime_error("pd_test_boolean_array_kleene_not failed: ~NA");
218 }
219
220 std::cout << " -> tests passed" << std::endl;
221 }
222
223 void pd_test_boolean_array_reductions() {
224 std::cout << "========= BooleanArray: reductions ======================= ";
225
226 // Test any()
227 pandas::BooleanArray all_false({
228 std::optional<bool>(false),
229 std::optional<bool>(false)
230 });
231 auto any_result = all_false.any();
232 if (!any_result.has_value() || any_result.value()) {
233 std::cout << " [FAIL] : in pd_test_boolean_array_reductions() : any() of all False" << std::endl;
234 throw std::runtime_error("pd_test_boolean_array_reductions failed: any() all False");
235 }
argmax (pd_test_1_all.cpp:1323)
1313 }
1314
1315 // argmin
1316 auto min_idx = arr.argmin();
1317 if (!min_idx.has_value() || min_idx.value() != 2) {
1318 std::cout << " [FAIL] : argmin should be 2 (2023-01-01)" << std::endl;
1319 throw std::runtime_error("pd_test_datetime_array_sorting failed: argmin");
1320 }
1321
1322 // argmax
1323 auto max_idx = arr.argmax();
1324 if (!max_idx.has_value() || max_idx.value() != 3) {
1325 std::cout << " [FAIL] : argmax should be 3 (2023-12-31)" << std::endl;
1326 throw std::runtime_error("pd_test_datetime_array_sorting failed: argmax");
1327 }
1328
1329 std::cout << " -> tests passed" << std::endl;
1330 }
1331
1332 void pd_test_datetime_array_unique() {
1333 std::cout << "========= DatetimeArray: unique/factorize ======================= ";
argmin (pd_test_1_all.cpp:1316)
1306 if (indices.getElementAt({0}) != 2) {
1307 std::cout << " [FAIL] : argsort: first should be index 2 (2023-01-01)" << std::endl;
1308 throw std::runtime_error("pd_test_datetime_array_sorting failed: argsort first");
1309 }
1310 if (indices.getElementAt({3}) != 1) {
1311 std::cout << " [FAIL] : argsort: last should be index 1 (NaT)" << std::endl;
1312 throw std::runtime_error("pd_test_datetime_array_sorting failed: NaT position");
1313 }
1314
1315 // argmin
1316 auto min_idx = arr.argmin();
1317 if (!min_idx.has_value() || min_idx.value() != 2) {
1318 std::cout << " [FAIL] : argmin should be 2 (2023-01-01)" << std::endl;
1319 throw std::runtime_error("pd_test_datetime_array_sorting failed: argmin");
1320 }
1321
1322 // argmax
1323 auto max_idx = arr.argmax();
1324 if (!max_idx.has_value() || max_idx.value() != 3) {
1325 std::cout << " [FAIL] : argmax should be 3 (2023-12-31)" << std::endl;
1326 throw std::runtime_error("pd_test_datetime_array_sorting failed: argmax");
ceil (pd_test_1_all.cpp:4949)
4939 throw std::runtime_error("pd_test_arithmetic_series_round failed: round failed");
4940 }
4941
4942 auto f = a.floor();
4943 passed = std::abs(f[0] - 1.0) < 0.001 && std::abs(f[2] - 3.0) < 0.001 && std::abs(f[3] - (-2.0)) < 0.001;
4944 if (!passed) {
4945 std::cout << " [FAIL] : in pd_test_arithmetic_series_round() : floor failed" << std::endl;
4946 throw std::runtime_error("pd_test_arithmetic_series_round failed: floor failed");
4947 }
4948
4949 auto c = a.ceil();
4950 passed = std::abs(c[0] - 2.0) < 0.001 && std::abs(c[2] - 4.0) < 0.001 && std::abs(c[3] - (-1.0)) < 0.001;
4951 if (!passed) {
4952 std::cout << " [FAIL] : in pd_test_arithmetic_series_round() : ceil failed" << std::endl;
4953 throw std::runtime_error("pd_test_arithmetic_series_round failed: ceil failed");
4954 }
4955
4956 // Round with decimals
4957 pandas::Series<double> b({1.234, 2.567, 3.891});
4958 auto r2 = b.round(2);
4959 passed = std::abs(r2[0] - 1.23) < 0.001 && std::abs(r2[1] - 2.57) < 0.001;
data (pd_test_1_all.cpp:9114)
9104 throw std::runtime_error("pd_test_datetime_mixin_default_constructor failed");
9105 }
9106
9107 std::cout << " -> tests passed" << std::endl;
9108}
9109
9110void pd_test_datetime_mixin_array_constructor() {
9111 std::cout << "========= DatetimeTDMixin array constructor =========================";
9112
9113 // Create DatetimeArray with some values
9114 numpy::NDArray<numpy::datetime64> data(std::vector<size_t>{3});
9115 data.setElementAt({0}, numpy::datetime64(1000000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2001
9116 data.setElementAt({1}, numpy::datetime64(1500000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2017
9117 data.setElementAt({2}, numpy::datetime64(1600000000000000000LL, numpy::DateTimeUnit::Nanosecond)); // ~2020
9118
9119 numpy::NDArray<numpy::bool_> mask(std::vector<size_t>{3});
9120 mask.setElementAt({0}, numpy::bool_(false));
9121 mask.setElementAt({1}, numpy::bool_(false));
9122 mask.setElementAt({2}, numpy::bool_(false));
9123
9124 pandas::DatetimeArray arr(data, mask);
dtype (pd_test_1_all.cpp:295)
285 throw std::runtime_error("pd_test_boolean_array_reductions failed: mean");
286 }
287
288 std::cout << " -> tests passed" << std::endl;
289 }
290
291 void pd_test_boolean_array_dtype() {
292 std::cout << "========= BooleanArray: dtype ======================= ";
293
294 pandas::BooleanArray arr;
295 if (arr.dtype().name() != "boolean") {
296 std::cout << " [FAIL] : in pd_test_boolean_array_dtype() : dtype name should be 'boolean'" << std::endl;
297 throw std::runtime_error("pd_test_boolean_array_dtype failed: dtype name");
298 }
299
300 if (arr.dtype().kind() != "b") {
301 std::cout << " [FAIL] : in pd_test_boolean_array_dtype() : dtype kind should be 'b'" << std::endl;
302 throw std::runtime_error("pd_test_boolean_array_dtype failed: dtype kind");
303 }
304
305 std::cout << " -> tests passed" << std::endl;
empty (pd_test_1_all.cpp:941)
931#include "../pandas/pd_config.h"
932
933namespace dataframe_tests {
934
935namespace dataframe_tests_config {
936
937 void pd_test_config_version() {
938 std::cout << "========= df_config: version info ======================= ";
939 const char* version = pandas::DataFrameInfo::version();
940 if (version == nullptr || std::string(version).empty()) {
941 std::cout << "[FAIL] : in pd_test_config_version() : version is null or empty" << std::endl;
942 throw std::runtime_error("pd_test_config_version failed: version is null or empty");
943 }
944 std::cout << "-> tests passed" << std::endl;
945 }
946
947 void pd_test_config_na_repr() {
948 std::cout << "========= df_config: NA representation ======================= ";
949 const char* na_repr = pandas::DataFrameConfig::get_na_repr();
950 if (na_repr == nullptr) {
factorize (pd_test_1_all.cpp:1353)
1343 // unique
1344 auto uniq = arr.unique();
1345 // Should have: NaT, 2023-01-01, 2023-06-15 (3 unique values)
1346 if (uniq.size() != 3) {
1347 std::cout << " [FAIL] : unique size should be 3, got " << uniq.size() << std::endl;
1348 throw std::runtime_error("pd_test_datetime_array_unique failed: size");
1349 }
1350
1351 // factorize
1352 auto [codes, uniques] = arr.factorize();
1353 // Codes for NaT should be -1
1354 if (codes.getElementAt({3}) != -1) {
1355 std::cout << " [FAIL] : factorize: NaT code should be -1" << std::endl;
1356 throw std::runtime_error("pd_test_datetime_array_unique failed: NaT code");
1357 }
1358 // Same values should have same codes
1359 if (codes.getElementAt({0}) != codes.getElementAt({2})) {
1360 std::cout << " [FAIL] : factorize: 2023-01-01 values should have same code" << std::endl;
1361 throw std::runtime_error("pd_test_datetime_array_unique failed: same code");
1362 }
floor (pd_test_1_all.cpp:4942)
4932 pandas::Series<double> a({1.4, 2.5, 3.6, -1.4, -2.5});
4933
4934 auto r = a.round();
4935 bool passed = std::abs(r[0] - 1.0) < 0.001 && std::abs(r[2] - 4.0) < 0.001;
4936 if (!passed) {
4937 std::cout << " [FAIL] : in pd_test_arithmetic_series_round() : round failed" << std::endl;
4938 throw std::runtime_error("pd_test_arithmetic_series_round failed: round failed");
4939 }
4940
4941 auto f = a.floor();
4942 passed = std::abs(f[0] - 1.0) < 0.001 && std::abs(f[2] - 3.0) < 0.001 && std::abs(f[3] - (-2.0)) < 0.001;
4943 if (!passed) {
4944 std::cout << " [FAIL] : in pd_test_arithmetic_series_round() : floor failed" << std::endl;
4945 throw std::runtime_error("pd_test_arithmetic_series_round failed: floor failed");
4946 }
4947
4948 auto c = a.ceil();
4949 passed = std::abs(c[0] - 2.0) < 0.001 && std::abs(c[2] - 4.0) < 0.001 && std::abs(c[3] - (-1.0)) < 0.001;
4950 if (!passed) {
4951 std::cout << " [FAIL] : in pd_test_arithmetic_series_round() : ceil failed" << std::endl;
has_na (pd_test_1_all.cpp:61)
51 if (!arr.is_na(1)) {
52 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : is_na(1) should be true" << std::endl;
53 throw std::runtime_error("pd_test_boolean_array_na_handling failed: is_na(1) should be true");
54 }
55
56 if (arr.is_na(0)) {
57 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : is_na(0) should be false" << std::endl;
58 throw std::runtime_error("pd_test_boolean_array_na_handling failed: is_na(0) should be false");
59 }
60
61 if (!arr.has_na()) {
62 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : has_na() should be true" << std::endl;
63 throw std::runtime_error("pd_test_boolean_array_na_handling failed: has_na() should be true");
64 }
65
66 if (arr.count() != 2) {
67 std::cout << " [FAIL] : in pd_test_boolean_array_na_handling() : count() should be 2" << std::endl;
68 throw std::runtime_error("pd_test_boolean_array_na_handling failed: count() should be 2");
69 }
70
71 std::cout << " -> tests passed" << std::endl;
isfinite (pd_test_5_all.cpp:17665)
17655 // works pre-fix because the override is label-only (storage stays
17656 // double). Compute mean via the float kernel path.
17657 auto col = df.col<double>("v");
17658 double sum_v = 0.0;
17659 for (size_t i = 0; i < col.size(); ++i) sum_v += col[i];
17660 double mean_v = sum_v / static_cast<double>(col.size());
17661 std::cout << " observed float-kernel mean = " << mean_v
17662 << " (storage=double, label=int64)\n";
17663
17664 // Guard rails (non-strict): result must be finite and equal to 3.5
17665 pandas_tests::check(std::isfinite(mean_v),
17666 "case12.mean_is_finite", local_fail);
17667 pandas_tests::check(std::abs(mean_v - 3.5) < 1e-12,
17668 "case12.mean_approx_3.5", local_fail);
17669
17670 // ARCH-NOTE: pandas would use int64 accumulators; pandasCore uses
17671 // double accumulators. For small integer inputs the numerical
17672 // result matches, but for very large sums (near 2^53) the float
17673 // kernel would lose precision. This is a known divergence
17674 // accepted by the current plan (a storage-matches-label migration
17675 // would be a separate, much larger plan).
nbytes (pd_test_1_all.cpp:6214)
6204 }
6205
6206 // Test empty DataFrame
6207 pandas::DataFrame empty_df;
6208 if (!empty_df.empty()) {
6209 std::cout << " [FAIL] : in pd_test_dataframe_properties() : should be empty" << std::endl;
6210 throw std::runtime_error("pd_test_dataframe_properties failed: should be empty");
6211 }
6212
6213 // Test nbytes > 0 for non-empty
6214 if (df.nbytes() == 0) {
6215 std::cout << " [FAIL] : in pd_test_dataframe_properties() : nbytes should be > 0" << std::endl;
6216 throw std::runtime_error("pd_test_dataframe_properties failed: nbytes should be > 0");
6217 }
6218
6219 // Test columns index
6220 if (df.columns().size() != 3) {
6221 std::cout << " [FAIL] : in pd_test_dataframe_properties() : columns size != 3" << std::endl;
6222 throw std::runtime_error("pd_test_dataframe_properties failed: columns size != 3");
6223 }
ndim (pd_test_1_all.cpp:6195)
6185 pandas::DataFrame df(data);
6186
6187 // Test shape
6188 auto shape = df.shape();
6189 if (shape.size() != 2 || shape[0] != 4 || shape[1] != 3) {
6190 std::cout << " [FAIL] : in pd_test_dataframe_properties() : shape mismatch" << std::endl;
6191 throw std::runtime_error("pd_test_dataframe_properties failed: shape mismatch");
6192 }
6193
6194 // Test ndim
6195 if (df.ndim() != 2) {
6196 std::cout << " [FAIL] : in pd_test_dataframe_properties() : ndim != 2" << std::endl;
6197 throw std::runtime_error("pd_test_dataframe_properties failed: ndim != 2");
6198 }
6199
6200 // Test empty
6201 if (df.empty()) {
6202 std::cout << " [FAIL] : in pd_test_dataframe_properties() : should not be empty" << std::endl;
6203 throw std::runtime_error("pd_test_dataframe_properties failed: should not be empty");
6204 }
repr (pd_test_1_all.cpp:10906)
10896 std::cout << " -> tests passed" << std::endl;
10897}
10898
10899void pd_test_extension_index_repr() {
10900 std::cout << "========= repr =========================";
10901
10902 pandas::CategoricalArray arr({"a", "b", "c"});
10903 // Use ExtensionIndex<CategoricalArray> directly to test base class repr
10904 pandas::ExtensionIndex<pandas::CategoricalArray> idx(arr, "test");
10905
10906 std::string repr_str = idx.repr();
10907
10908 bool passed = (!repr_str.empty() && repr_str.find("ExtensionIndex") != std::string::npos);
10909 if (!passed) {
10910 std::cout << " [FAIL] : in pd_test_extension_index_repr() : repr check failed" << std::endl;
10911 throw std::runtime_error("pd_test_extension_index_repr failed");
10912 }
10913
10914 std::cout << " -> tests passed" << std::endl;
10915}
round (pd_test_1_all.cpp:1688)
1678 void pd_test_floating_array_rounding() {
1679 std::cout << "========= FloatingArray: rounding ======================= ";
1680
1681 pandas::FloatingArray<double> arr({
1682 std::optional<double>(1.234),
1683 std::optional<double>(2.567),
1684 std::nullopt
1685 });
1686
1687 auto rounded = arr.round(2);
1688 if (std::abs(rounded[0].value() - 1.23) > 0.001 ||
1689 std::abs(rounded[1].value() - 2.57) > 0.001) {
1690 std::cout << " [FAIL] : in pd_test_floating_array_rounding() : round(2)" << std::endl;
1691 throw std::runtime_error("pd_test_floating_array_rounding failed: round(2)");
1692 }
1693
1694 if (!rounded.is_na(2)) {
1695 std::cout << " [FAIL] : in pd_test_floating_array_rounding() : round should preserve NA" << std::endl;
1696 throw std::runtime_error("pd_test_floating_array_rounding failed: NA preservation");
1697 }
shape (pd_test_1_all.cpp:6188)
6178 std::cout << "========= properties =======================";
6179
6180 std::map<std::string, std::vector<numpy::float64>> data;
6181 data["A"] = {1.0, 2.0, 3.0, 4.0};
6182 data["B"] = {5.0, 6.0, 7.0, 8.0};
6183 data["C"] = {9.0, 10.0, 11.0, 12.0};
6184
6185 pandas::DataFrame df(data);
6186
6187 // Test shape
6188 auto shape = df.shape();
6189 if (shape.size() != 2 || shape[0] != 4 || shape[1] != 3) {
6190 std::cout << " [FAIL] : in pd_test_dataframe_properties() : shape mismatch" << std::endl;
6191 throw std::runtime_error("pd_test_dataframe_properties failed: shape mismatch");
6192 }
6193
6194 // Test ndim
6195 if (df.ndim() != 2) {
6196 std::cout << " [FAIL] : in pd_test_dataframe_properties() : ndim != 2" << std::endl;
6197 throw std::runtime_error("pd_test_dataframe_properties failed: ndim != 2");
6198 }
size (pd_test_1_all.cpp:22)
12#include "../pandas/pd_boolean_array.h"
13
14namespace dataframe_tests {
15
16namespace dataframe_tests_boolean_array {
17 void pd_test_boolean_array_constructors() {
18 std::cout << "========= BooleanArray: constructors ======================= ";
19
20 // Default constructor
21 pandas::BooleanArray arr1;
22 if (arr1.size() != 0) {
23 std::cout << " [FAIL] : in pd_test_boolean_array_constructors() : default constructor size != 0" << std::endl;
24 throw std::runtime_error("pd_test_boolean_array_constructors failed: default constructor size != 0");
25 }
26
27 // Initializer list constructor
28 pandas::BooleanArray arr2({
29 std::optional<bool>(true),
30 std::optional<bool>(false),
31 std::nullopt,
32 std::optional<bool>(true)