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Extend the test of MonsterExtra (#5428)

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* Extend the test of MonsterExtra

- Extend C++ test of MonsterExtra
- Add conversion of fbs/json NaNs to unsigned quiet-NaN
- Update documentation (cross-platform interoperability)

* Fix declaration of infinity constants int the test
This commit is contained in:
Vladimir Glavnyy
2019-07-09 01:22:56 +07:00
committed by Wouter van Oortmerssen
parent 47c7aa0361
commit e304f8c115
13 changed files with 654 additions and 409 deletions
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114
tests/MyGame/MonsterExtra.java
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@@ -16,63 +16,73 @@ public final class MonsterExtra extends Table {
public void __init(int _i, ByteBuffer _bb) { __reset(_i, _bb); }
public MonsterExtra __assign(int _i, ByteBuffer _bb) { __init(_i, _bb); return this; }
public float testfNan() { int o = __offset(4); return o != 0 ? bb.getFloat(o + bb_pos) : Float.NaN; }
public boolean mutateTestfNan(float testf_nan) { int o = __offset(4); if (o != 0) { bb.putFloat(o + bb_pos, testf_nan); return true; } else { return false; } }
public float testfPinf() { int o = __offset(6); return o != 0 ? bb.getFloat(o + bb_pos) : Float.POSITIVE_INFINITY; }
public boolean mutateTestfPinf(float testf_pinf) { int o = __offset(6); if (o != 0) { bb.putFloat(o + bb_pos, testf_pinf); return true; } else { return false; } }
public float testfNinf() { int o = __offset(8); return o != 0 ? bb.getFloat(o + bb_pos) : Float.NEGATIVE_INFINITY; }
public boolean mutateTestfNinf(float testf_ninf) { int o = __offset(8); if (o != 0) { bb.putFloat(o + bb_pos, testf_ninf); return true; } else { return false; } }
public double testdNan() { int o = __offset(10); return o != 0 ? bb.getDouble(o + bb_pos) : Double.NaN; }
public boolean mutateTestdNan(double testd_nan) { int o = __offset(10); if (o != 0) { bb.putDouble(o + bb_pos, testd_nan); return true; } else { return false; } }
public double testdPinf() { int o = __offset(12); return o != 0 ? bb.getDouble(o + bb_pos) : Double.POSITIVE_INFINITY; }
public boolean mutateTestdPinf(double testd_pinf) { int o = __offset(12); if (o != 0) { bb.putDouble(o + bb_pos, testd_pinf); return true; } else { return false; } }
public double testdNinf() { int o = __offset(14); return o != 0 ? bb.getDouble(o + bb_pos) : Double.NEGATIVE_INFINITY; }
public boolean mutateTestdNinf(double testd_ninf) { int o = __offset(14); if (o != 0) { bb.putDouble(o + bb_pos, testd_ninf); return true; } else { return false; } }
public float testfVec(int j) { int o = __offset(16); return o != 0 ? bb.getFloat(__vector(o) + j * 4) : 0; }
public int testfVecLength() { int o = __offset(16); return o != 0 ? __vector_len(o) : 0; }
public ByteBuffer testfVecAsByteBuffer() { return __vector_as_bytebuffer(16, 4); }
public ByteBuffer testfVecInByteBuffer(ByteBuffer _bb) { return __vector_in_bytebuffer(_bb, 16, 4); }
public boolean mutateTestfVec(int j, float testf_vec) { int o = __offset(16); if (o != 0) { bb.putFloat(__vector(o) + j * 4, testf_vec); return true; } else { return false; } }
public double testdVec(int j) { int o = __offset(18); return o != 0 ? bb.getDouble(__vector(o) + j * 8) : 0; }
public int testdVecLength() { int o = __offset(18); return o != 0 ? __vector_len(o) : 0; }
public ByteBuffer testdVecAsByteBuffer() { return __vector_as_bytebuffer(18, 8); }
public ByteBuffer testdVecInByteBuffer(ByteBuffer _bb) { return __vector_in_bytebuffer(_bb, 18, 8); }
public boolean mutateTestdVec(int j, double testd_vec) { int o = __offset(18); if (o != 0) { bb.putDouble(__vector(o) + j * 8, testd_vec); return true; } else { return false; } }
public double d0() { int o = __offset(4); return o != 0 ? bb.getDouble(o + bb_pos) : Double.NaN; }
public boolean mutateD0(double d0) { int o = __offset(4); if (o != 0) { bb.putDouble(o + bb_pos, d0); return true; } else { return false; } }
public double d1() { int o = __offset(6); return o != 0 ? bb.getDouble(o + bb_pos) : Double.NaN; }
public boolean mutateD1(double d1) { int o = __offset(6); if (o != 0) { bb.putDouble(o + bb_pos, d1); return true; } else { return false; } }
public double d2() { int o = __offset(8); return o != 0 ? bb.getDouble(o + bb_pos) : Double.POSITIVE_INFINITY; }
public boolean mutateD2(double d2) { int o = __offset(8); if (o != 0) { bb.putDouble(o + bb_pos, d2); return true; } else { return false; } }
public double d3() { int o = __offset(10); return o != 0 ? bb.getDouble(o + bb_pos) : Double.NEGATIVE_INFINITY; }
public boolean mutateD3(double d3) { int o = __offset(10); if (o != 0) { bb.putDouble(o + bb_pos, d3); return true; } else { return false; } }
public float f0() { int o = __offset(12); return o != 0 ? bb.getFloat(o + bb_pos) : Float.NaN; }
public boolean mutateF0(float f0) { int o = __offset(12); if (o != 0) { bb.putFloat(o + bb_pos, f0); return true; } else { return false; } }
public float f1() { int o = __offset(14); return o != 0 ? bb.getFloat(o + bb_pos) : Float.NaN; }
public boolean mutateF1(float f1) { int o = __offset(14); if (o != 0) { bb.putFloat(o + bb_pos, f1); return true; } else { return false; } }
public float f2() { int o = __offset(16); return o != 0 ? bb.getFloat(o + bb_pos) : Float.POSITIVE_INFINITY; }
public boolean mutateF2(float f2) { int o = __offset(16); if (o != 0) { bb.putFloat(o + bb_pos, f2); return true; } else { return false; } }
public float f3() { int o = __offset(18); return o != 0 ? bb.getFloat(o + bb_pos) : Float.NEGATIVE_INFINITY; }
public boolean mutateF3(float f3) { int o = __offset(18); if (o != 0) { bb.putFloat(o + bb_pos, f3); return true; } else { return false; } }
public double dvec(int j) { int o = __offset(20); return o != 0 ? bb.getDouble(__vector(o) + j * 8) : 0; }
public int dvecLength() { int o = __offset(20); return o != 0 ? __vector_len(o) : 0; }
public ByteBuffer dvecAsByteBuffer() { return __vector_as_bytebuffer(20, 8); }
public ByteBuffer dvecInByteBuffer(ByteBuffer _bb) { return __vector_in_bytebuffer(_bb, 20, 8); }
public boolean mutateDvec(int j, double dvec) { int o = __offset(20); if (o != 0) { bb.putDouble(__vector(o) + j * 8, dvec); return true; } else { return false; } }
public float fvec(int j) { int o = __offset(22); return o != 0 ? bb.getFloat(__vector(o) + j * 4) : 0; }
public int fvecLength() { int o = __offset(22); return o != 0 ? __vector_len(o) : 0; }
public ByteBuffer fvecAsByteBuffer() { return __vector_as_bytebuffer(22, 4); }
public ByteBuffer fvecInByteBuffer(ByteBuffer _bb) { return __vector_in_bytebuffer(_bb, 22, 4); }
public boolean mutateFvec(int j, float fvec) { int o = __offset(22); if (o != 0) { bb.putFloat(__vector(o) + j * 4, fvec); return true; } else { return false; } }
public static int createMonsterExtra(FlatBufferBuilder builder,
float testf_nan,
float testf_pinf,
float testf_ninf,
double testd_nan,
double testd_pinf,
double testd_ninf,
int testf_vecOffset,
int testd_vecOffset) {
builder.startTable(8);
MonsterExtra.addTestdNinf(builder, testd_ninf);
MonsterExtra.addTestdPinf(builder, testd_pinf);
MonsterExtra.addTestdNan(builder, testd_nan);
MonsterExtra.addTestdVec(builder, testd_vecOffset);
MonsterExtra.addTestfVec(builder, testf_vecOffset);
MonsterExtra.addTestfNinf(builder, testf_ninf);
MonsterExtra.addTestfPinf(builder, testf_pinf);
MonsterExtra.addTestfNan(builder, testf_nan);
double d0,
double d1,
double d2,
double d3,
float f0,
float f1,
float f2,
float f3,
int dvecOffset,
int fvecOffset) {
builder.startTable(10);
MonsterExtra.addD3(builder, d3);
MonsterExtra.addD2(builder, d2);
MonsterExtra.addD1(builder, d1);
MonsterExtra.addD0(builder, d0);
MonsterExtra.addFvec(builder, fvecOffset);
MonsterExtra.addDvec(builder, dvecOffset);
MonsterExtra.addF3(builder, f3);
MonsterExtra.addF2(builder, f2);
MonsterExtra.addF1(builder, f1);
MonsterExtra.addF0(builder, f0);
return MonsterExtra.endMonsterExtra(builder);
}
public static void startMonsterExtra(FlatBufferBuilder builder) { builder.startTable(8); }
public static void addTestfNan(FlatBufferBuilder builder, float testfNan) { builder.addFloat(0, testfNan, Float.NaN); }
public static void addTestfPinf(FlatBufferBuilder builder, float testfPinf) { builder.addFloat(1, testfPinf, Float.POSITIVE_INFINITY); }
public static void addTestfNinf(FlatBufferBuilder builder, float testfNinf) { builder.addFloat(2, testfNinf, Float.NEGATIVE_INFINITY); }
public static void addTestdNan(FlatBufferBuilder builder, double testdNan) { builder.addDouble(3, testdNan, Double.NaN); }
public static void addTestdPinf(FlatBufferBuilder builder, double testdPinf) { builder.addDouble(4, testdPinf, Double.POSITIVE_INFINITY); }
public static void addTestdNinf(FlatBufferBuilder builder, double testdNinf) { builder.addDouble(5, testdNinf, Double.NEGATIVE_INFINITY); }
public static void addTestfVec(FlatBufferBuilder builder, int testfVecOffset) { builder.addOffset(6, testfVecOffset, 0); }
public static int createTestfVecVector(FlatBufferBuilder builder, float[] data) { builder.startVector(4, data.length, 4); for (int i = data.length - 1; i >= 0; i--) builder.addFloat(data[i]); return builder.endVector(); }
public static void startTestfVecVector(FlatBufferBuilder builder, int numElems) { builder.startVector(4, numElems, 4); }
public static void addTestdVec(FlatBufferBuilder builder, int testdVecOffset) { builder.addOffset(7, testdVecOffset, 0); }
public static int createTestdVecVector(FlatBufferBuilder builder, double[] data) { builder.startVector(8, data.length, 8); for (int i = data.length - 1; i >= 0; i--) builder.addDouble(data[i]); return builder.endVector(); }
public static void startTestdVecVector(FlatBufferBuilder builder, int numElems) { builder.startVector(8, numElems, 8); }
public static void startMonsterExtra(FlatBufferBuilder builder) { builder.startTable(10); }
public static void addD0(FlatBufferBuilder builder, double d0) { builder.addDouble(0, d0, Double.NaN); }
public static void addD1(FlatBufferBuilder builder, double d1) { builder.addDouble(1, d1, Double.NaN); }
public static void addD2(FlatBufferBuilder builder, double d2) { builder.addDouble(2, d2, Double.POSITIVE_INFINITY); }
public static void addD3(FlatBufferBuilder builder, double d3) { builder.addDouble(3, d3, Double.NEGATIVE_INFINITY); }
public static void addF0(FlatBufferBuilder builder, float f0) { builder.addFloat(4, f0, Float.NaN); }
public static void addF1(FlatBufferBuilder builder, float f1) { builder.addFloat(5, f1, Float.NaN); }
public static void addF2(FlatBufferBuilder builder, float f2) { builder.addFloat(6, f2, Float.POSITIVE_INFINITY); }
public static void addF3(FlatBufferBuilder builder, float f3) { builder.addFloat(7, f3, Float.NEGATIVE_INFINITY); }
public static void addDvec(FlatBufferBuilder builder, int dvecOffset) { builder.addOffset(8, dvecOffset, 0); }
public static int createDvecVector(FlatBufferBuilder builder, double[] data) { builder.startVector(8, data.length, 8); for (int i = data.length - 1; i >= 0; i--) builder.addDouble(data[i]); return builder.endVector(); }
public static void startDvecVector(FlatBufferBuilder builder, int numElems) { builder.startVector(8, numElems, 8); }
public static void addFvec(FlatBufferBuilder builder, int fvecOffset) { builder.addOffset(9, fvecOffset, 0); }
public static int createFvecVector(FlatBufferBuilder builder, float[] data) { builder.startVector(4, data.length, 4); for (int i = data.length - 1; i >= 0; i--) builder.addFloat(data[i]); return builder.endVector(); }
public static void startFvecVector(FlatBufferBuilder builder, int numElems) { builder.startVector(4, numElems, 4); }
public static int endMonsterExtra(FlatBufferBuilder builder) {
int o = builder.endTable();
return o;