pkg/collection_helpers/test/typed_buffers_test.dart - Issue 26695002: Growable typed data buffers.

Unified Diff: pkg/collection_helpers/test/typed_buffers_test.dart

Issue 26695002: Growable typed data buffers. (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart

Patch Set: Don't expect failure on FF/Win since it's 32-bit. Created 7 years, 1 month ago

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Index: pkg/collection_helpers/test/typed_buffers_test.dart

diff --git a/pkg/collection_helpers/test/typed_buffers_test.dart b/pkg/collection_helpers/test/typed_buffers_test.dart

new file mode 100644

index 0000000000000000000000000000000000000000..d8ba5d036ec56febb06b4fd73ceae2361439ae68

--- /dev/null

+++ b/pkg/collection_helpers/test/typed_buffers_test.dart

@@ -0,0 +1,421 @@

+// BSD-style license that can be found in the LICENSE file.

+// Tests typed-data buffer classes.

+import "package:collection_helpers/all.dart";

+import "package:unittest/unittest.dart";

+import "dart:typed_data";

+main() {

+ testUint(8, (l) => new Uint8Buffer(l));

+ testInt(8, (l) => new Int8Buffer(l));

+ test("Uint8ClampedBuffer", () {

+ testIntBuffer(8, 0, 255, (l) => new Uint8ClampedBuffer(l), clampUint8);

+ });

+ testUint(16, (l) => new Uint16Buffer(l));

+ testInt(16, (l) => new Int16Buffer(l));

+ testUint(32, (l) => new Uint32Buffer(l)); /// 01: ok

+ testInt(32, (l) => new Int32Buffer(l));

+ testUint(64, (l) => new Uint64Buffer(l)); /// 01: continued

+ testInt(64, (l) => new Int64Buffer(l)); /// 01: continued

+ testInt32x4Buffer(intSamples);

+ List roundedFloatSamples = floatSamples.map(roundToFloat).toList();

+ testFloatBuffer(32, roundedFloatSamples,

+ () => new Float32Buffer(),

+ roundToFloat);

+ testFloatBuffer(64, doubleSamples, () => new Float64Buffer(), (x) => x);

+ testFloat32x4Buffer(roundedFloatSamples);

+double roundToFloat(double value) {

+ return (new Float32List(1)..[0] = value)[0];

+typedef int Rounder(int value);

+Rounder roundUint(bits) {

+ int halfbits = (1 << (bits ~/ 2)) - 1;

+ int mask = halfbits | (halfbits << (bits ~/ 2));

+ return (int x) => x & mask;

+Rounder roundInt(bits) {

+ int highBit = 1 << (bits - 1);

+ int mask = highBit - 1;

+ return (int x) => (x & mask) - (x & highBit);

+int clampUint8(x) => x < 0 ? 0 : x > 255 ? 255 : x;

+void testUint(int bits, var buffer) {

+ int min = 0;

+ Function round = roundUint(bits);

+ int max = round(-1);

+ test("Uint${bits}Buffer", () {

+ testIntBuffer(bits, min, max, buffer, round);

+ });

+void testInt(int bits, var buffer) {

+ int min = -(1 << (bits - 1));

+ int max = -(min + 1);

+ test("Int${bits}Buffer", () {

+ testIntBuffer(bits, min, max, buffer, roundInt(bits));

+ });

+const List<int> intSamples = const [

+ 0x10000000000000001,

+ 0x10000000000000000, // 2^64

+ 0x0ffffffffffffffff,

+ 0xaaaaaaaaaaaaaaaa,

+ 0x8000000000000001,

+ 0x8000000000000000, // 2^63

+ 0x7fffffffffffffff,

+ 0x5555555555555555,

+ 0x100000001,

+ 0x100000000, // 2^32

+ 0x0ffffffff,

+ 0xaaaaaaaa,

+ 0x80000001,

+ 0x80000000, // 2^31

+ 0x7fffffff,

+ 0x55555555,

+ 0x10001,

+ 0x10000, // 2^16

+ 0x0ffff,

+ 0xaaaa,

+ 0x8001,

+ 0x8000, // 2^15

+ 0x7fff,

+ 0x5555,

+ 0x101,

+ 0x100, // 2^8

+ 0x0ff,

+ 0xaa,

+ 0x81,

+ 0x80, // 2^7

+ 0x7f,

+ 0x55,

+ 0x02,

+ 0x01,

+ 0x00

+];

+// Takes bit-size, min value, max value, function to create a buffer, and

+// the rounding that is applied when storing values outside the valid range

+// into the buffer.

+void testIntBuffer(int bits, int min, int max,

+ create(int length),

+ int round(int)) {

+ assert(round(min) == min);

+ assert(round(max) == max);

+ // All int buffers default to the value 0.

+ var buffer = create(0);

+ List<int> list = buffer; // Check the type.

+ expect(buffer.length, equals(0));

+ var bytes = bits ~/ 8;

+ expect(buffer.elementSizeInBytes, equals(bytes));

+ expect(buffer.lengthInBytes, equals(0));

+ expect(buffer.offsetInBytes, equals(0));

+ buffer.add(min);

+ expect(buffer.length, equals(1));

+ expect(buffer[0], equals(min));

+ expect(buffer.elementSizeInBytes, equals(bytes));

+ expect(buffer.lengthInBytes, equals(bytes));

+ expect(buffer.offsetInBytes, equals(0));

+ buffer.length = 0;

+ expect(buffer.length, equals(0));

+ List samples = intSamples.toList()..addAll(intSamples.map((x) => -x));

+ for (int value in samples) {

+ int length = buffer.length;

+ buffer.add(value);

+ expect(buffer.length, equals(length + 1));

+ expect(buffer[length], equals(round(value)));

+ }

+ buffer.addAll(samples); // Add all the values at once.

+ for (int i = 0; i < samples.length; i++) {

+ expect(buffer[samples.length + i], equals(buffer[i]));

+ }

+ // Remove range works and changes length.

+ buffer.removeRange(samples.length, buffer.length);

+ expect(buffer.length, equals(samples.length));

+ // Both values are in `samples`, but equality is performed without rounding.

+ expect(buffer.contains(min - 1), isFalse);

+ expect(buffer.contains(max + 1), isFalse);

+ expect(buffer.contains(round(min - 1)), isTrue);

+ expect(buffer.contains(round(max + 1)), isTrue);

+ // Accessing the underlying buffer works.

+ buffer.length = 2;

+ buffer[0] = min;

+ buffer[1] = max;

+ var byteBuffer = new Uint8List.view(buffer.buffer);

+ int byteSize = buffer.elementSizeInBytes;

+ for (int i = 0; i < byteSize; i++) {

+ int tmp = byteBuffer[i];

+ byteBuffer[i] = byteBuffer[byteSize + i];

+ byteBuffer[byteSize + i] = tmp;

+ }

+ expect(buffer[0], equals(max));

+ expect(buffer[1], equals(min));

+const List doubleSamples = const [

+ 0.0,

+ 5e-324, // Minimal denormal value.

+ 2.225073858507201e-308, // Maximal denormal value.

+ 2.2250738585072014e-308, // Minimal normal value.

+ 0.9999999999999999, // Maximum value < 1.

+ 1.0,

+ 1.0000000000000002, // Minimum value > 1.

+ 4294967295.0, // 2^32 -1.

+ 4294967296.0, // 2^32.

+ 4503599627370495.5, // Maximal fractional value.

+ 9007199254740992.0, // Maximal exact value (adding one gets lost).

+ 1.7976931348623157e+308, // Maximal value.

+ 1.0/0.0, // Infinity.

+ 0.0/0.0, // NaN.

+ 0.49999999999999994, // Round-traps 1-3 (adding 0.5 and rounding towards

+ 4503599627370497.0, // minus infinity will not be the same as rounding

+ 9007199254740991.0 // to nearest with 0.5 rounding up).

+];

+const List floatSamples = const [

+ 0.0,

+ 1.4e-45, // Minimal denormal value.

+ 1.1754942E-38, // Maximal denormal value.

+ 1.17549435E-38, // Minimal normal value.

+ 0.99999994, // Maximal value < 1.

+ 1.0,

+ 1.0000001, // Minimal value > 1.

+ 8388607.5, // Maximal fractional value.

+ 16777216.0, // Maximal exact value.

+ 3.4028235e+38, // Maximal value.

+ 1.0/0.0, // Infinity.

+ 0.0/0.0, // NaN.

+ 0.99999994, // Round traps 1-3.

+ 8388609.0,

+ 16777215.0

+];

+void doubleEqual(x, y) {

+ if (y.isNaN) {

+ expect(x.isNaN, isTrue);

+ } else {

+ if (x != y) {

+ }

+ expect(x, equals(y));

+ }

+testFloatBuffer(int bitSize, List samples, create(), double round(double v)) {

+ test("Float${bitSize}Buffer", () {

+ var buffer = create();

+ List<double> list = buffer; // Test type.

+ int byteSize = bitSize ~/ 8;

+ expect(buffer.length, equals(0));

+ buffer.add(0.0);

+ expect(buffer.length, equals(1));

+ expect(buffer.removeLast(), equals(0.0));

+ expect(buffer.length, equals(0));

+ for (double value in samples) {

+ buffer.add(value);

+ doubleEqual(buffer[buffer.length - 1], round(value));

+ }

+ expect(buffer.length, equals(samples.length));

+ buffer.addAll(samples);

+ expect(buffer.length, equals(samples.length * 2));

+ for (int i = 0; i < samples.length; i++) {

+ doubleEqual(buffer[i], buffer[samples.length + i]);

+ }

+ buffer.removeRange(samples.length, buffer.length);

+ expect(buffer.length, equals(samples.length));

+ buffer.insertAll(0, samples);

+ expect(buffer.length, equals(samples.length * 2));

+ for (int i = 0; i < samples.length; i++) {

+ doubleEqual(buffer[i], buffer[samples.length + i]);

+ }

+ buffer.length = samples.length;

+ expect(buffer.length, equals(samples.length));

+ // TypedData.

+ expect(buffer.elementSizeInBytes, equals(byteSize));

+ expect(buffer.lengthInBytes, equals(byteSize * buffer.length));

+ expect(buffer.offsetInBytes, equals(0));

+ // Accessing the buffer works.

+ // Accessing the underlying buffer works.

+ buffer.length = 2;

+ buffer[0] = samples[0];

+ buffer[1] = samples[1];

+ var bytes = new Uint8List.view(buffer.buffer);

+ for (int i = 0; i < byteSize; i++) {

+ int tmp = bytes[i];

+ bytes[i] = bytes[byteSize + i];

+ bytes[byteSize + i] = tmp;

+ }

+ doubleEqual(buffer[0], round(samples[1]));

+ doubleEqual(buffer[1], round(samples[0]));

+ });

+testFloat32x4Buffer(List floatSamples) {

+ List float4Samples = [];

+ for (int i = 0; i < floatSamples.length - 3; i++) {

+ float4Samples.add(new Float32x4(floatSamples[i],

+ floatSamples[i + 1],

+ floatSamples[i + 2],

+ floatSamples[i + 3]));

+ }

+ void floatEquals(x, y) {

+ if (y.isNaN) {

+ expect(x.isNaN, isTrue);

+ } else {

+ expect(x, equals(y));

+ }

+ void x4Equals(Float32x4 x, Float32x4 y) {

+ floatEquals(x.x, y.x);

+ floatEquals(x.y, y.y);

+ floatEquals(x.z, y.z);

+ floatEquals(x.w, y.w);

+ }

+ test("Float32x4Buffer", () {

+ var buffer = new Float32x4Buffer(5);

+ List<Float32x4> list = buffer;

+ expect(buffer.length, equals(5));

+ expect(buffer.elementSizeInBytes, equals(128 ~/ 8));

+ expect(buffer.lengthInBytes, equals(5 * 128 ~/ 8));

+ expect(buffer.offsetInBytes, equals(0));

+ x4Equals(buffer[0], new Float32x4.zero());

+ buffer.length = 0;

+ expect(buffer.length, equals(0));

+ for (var sample in float4Samples) {

+ buffer.add(sample);

+ x4Equals(buffer[buffer.length - 1], sample);

+ }

+ expect(buffer.length, equals(float4Samples.length));

+ buffer.addAll(float4Samples);

+ expect(buffer.length, equals(float4Samples.length * 2));

+ for (int i = 0; i < float4Samples.length; i++) {

+ x4Equals(buffer[i], buffer[float4Samples.length + i]);

+ }

+ buffer.removeRange(4, 4 + float4Samples.length);

+ for (int i = 0; i < float4Samples.length; i++) {

+ x4Equals(buffer[i], float4Samples[i]);

+ }

+ // Test underlying buffer.

+ buffer.length = 1;

+ buffer[0] = float4Samples[0]; // Does not contain NaN.

+ Float32List floats = new Float32List.view(buffer.buffer);

+ expect(floats[0], equals(buffer[0].x));

+ expect(floats[1], equals(buffer[0].y));

+ expect(floats[2], equals(buffer[0].z));

+ expect(floats[3], equals(buffer[0].w));

+ });

+void testInt32x4Buffer(intSamples) {

+ test("Int32x4Buffer", () {

+ Function round = roundInt(32);

+ int bits = 128;

+ int bytes = 128 ~/ 8;

+ Matcher equals32x4(Int32x4 expected) => new MatchesInt32x4(expected);

+ var buffer = new Int32x4Buffer(0);

+ List<Int32x4> list = buffer; // It's a List.

+ expect(buffer.length, equals(0));

+ expect(buffer.elementSizeInBytes, equals(bytes));

+ expect(buffer.lengthInBytes, equals(0));

+ expect(buffer.offsetInBytes, equals(0));

+ Int32x4 sample = new Int32x4(-0x80000000, -1, 0, 0x7fffffff);

+ buffer.add(sample);

+ expect(buffer.length, equals(1));

+ expect(buffer[0], equals32x4(sample));

+ expect(buffer.elementSizeInBytes, equals(bytes));

+ expect(buffer.lengthInBytes, equals(bytes));

+ expect(buffer.offsetInBytes, equals(0));

+ buffer.length = 0;

+ expect(buffer.length, equals(0));

+ var samples = intSamples

+ .where((value) => value == round(value)) // Issue 15130

+ .map((value) => new Int32x4(value, -value, ~value, ~-value))

+ .toList();

+ for (Int32x4 value in samples) {

+ int length = buffer.length;

+ buffer.add(value);

+ expect(buffer.length, equals(length + 1));

+ expect(buffer[length], equals32x4(value));

+ }

+ buffer.addAll(samples); // Add all the values at once.

+ for (int i = 0; i < samples.length; i++) {

+ expect(buffer[samples.length + i], equals32x4(buffer[i]));

+ }

+ // Remove range works and changes length.

+ buffer.removeRange(samples.length, buffer.length);

+ expect(buffer.length, equals(samples.length));

+ // Accessing the underlying buffer works.

+ buffer.length = 2;

+ buffer[0] = new Int32x4(-80000000, 0x7fffffff, 0, -1);

+ var byteBuffer = new Uint8List.view(buffer.buffer);

+ int halfBytes = bytes ~/ 2;

+ for (int i = 0; i < halfBytes; i++) {

+ int tmp = byteBuffer[i];

+ byteBuffer[i] = byteBuffer[halfBytes + i];

+ byteBuffer[halfBytes + i] = tmp;

+ }

+ var result = new Int32x4(0, -1, -80000000, 0x7fffffff);

+ expect(buffer[0], equals32x4(result));

+ });

+class MatchesInt32x4 extends Matcher {

+ Int32x4 result;

+ MatchesInt32x4(this.result);

+ bool matches(item, Map matchState) {

+ if (item is! Int32x4) return false;

+ Int32x4 value = item;

+ return result.x == value.x && result.y == value.y &&

+ result.z == value.z && result.w == value.w;

+ }

+ Description describe(Description description) =>

+ description.add('Int32x4.==');

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