Finally fix clip rect bug?

This commit is contained in:
Doyle Thai 2017-12-06 19:08:49 +11:00
parent 3d3d741ad6
commit ee4f8eca17
2 changed files with 765 additions and 398 deletions

631
dqn.h

File diff suppressed because it is too large Load Diff

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@ -83,13 +83,13 @@ void HandmadeMathTestInternal()
if (1) if (1)
{ {
hmm_vec3 hmmVec = HMM_Vec3i(1, 2, 3); hmm_vec3 hmmVec = HMM_Vec3i(1, 2, 3);
DqnV3 dqnVec = DqnV3(1, 2, 3); DqnV3 dqnVec = DqnV3_(1, 2, 3);
DqnMat4 dqnTranslate = DqnMat4_Translate3f(dqnVec.x, dqnVec.y, dqnVec.z); DqnMat4 dqnTranslate = DqnMat4_Translate3f(dqnVec.x, dqnVec.y, dqnVec.z);
hmm_mat4 hmmTranslate = HMM_Translate(hmmVec); hmm_mat4 hmmTranslate = HMM_Translate(hmmVec);
HandmadeMathVerifyMat4(dqnTranslate, hmmTranslate); HandmadeMathVerifyMat4(dqnTranslate, hmmTranslate);
hmm_vec3 hmmAxis = HMM_Vec3(0.5f, 0.2f, 0.7f); hmm_vec3 hmmAxis = HMM_Vec3(0.5f, 0.2f, 0.7f);
DqnV3 dqnAxis = DqnV3(0.5f, 0.2f, 0.7f); DqnV3 dqnAxis = DqnV3_(0.5f, 0.2f, 0.7f);
f32 rotationInDegrees = 80.0f; f32 rotationInDegrees = 80.0f;
DqnMat4 dqnRotate = DqnMat4_Rotate(DQN_DEGREES_TO_RADIANS(rotationInDegrees), dqnAxis.x, DqnMat4 dqnRotate = DqnMat4_Rotate(DQN_DEGREES_TO_RADIANS(rotationInDegrees), dqnAxis.x,
@ -110,7 +110,7 @@ void HandmadeMathTestInternal()
// Test Mat4 * MulV4 // Test Mat4 * MulV4
if (1) if (1)
{ {
DqnV4 dqnV4 = DqnV4(1, 2, 3, 4); DqnV4 dqnV4 = DqnV4_(1, 2, 3, 4);
hmm_vec4 hmmV4 = HMM_Vec4(1, 2, 3, 4); hmm_vec4 hmmV4 = HMM_Vec4(1, 2, 3, 4);
DqnV4 dqnResult = DqnMat4_MulV4(dqnTSMatrix, dqnV4); DqnV4 dqnResult = DqnMat4_MulV4(dqnTSMatrix, dqnV4);
@ -703,82 +703,82 @@ void DqnVX_Test()
// V2 Creating // V2 Creating
if (1) if (1)
{ {
DqnV2 vec = DqnV2(5.5f, 5.0f); DqnV2 vec = DqnV2_(5.5f, 5.0f);
DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f); DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f);
DQN_ASSERT(vec.w == 5.5f && vec.h == 5.0f); DQN_ASSERT(vec.w == 5.5f && vec.h == 5.0f);
LogSuccess("DqnV2(): Creating"); LogSuccess("DqnV2_(): Creating");
} }
// V2 with 2 integers // V2 with 2 integers
if (1) if (1)
{ {
DqnV2 vec = DqnV2(3, 5); DqnV2 vec = DqnV2_(3, 5);
DQN_ASSERT(vec.x == 3 && vec.y == 5.0f); DQN_ASSERT(vec.x == 3 && vec.y == 5.0f);
DQN_ASSERT(vec.w == 3 && vec.h == 5.0f); DQN_ASSERT(vec.w == 3 && vec.h == 5.0f);
LogSuccess("DqnV2(): with 2 integers"); LogSuccess("DqnV2_(): with 2 integers");
} }
// V2 Arithmetic // V2 Arithmetic
if (1) if (1)
{ {
DqnV2 vecA = DqnV2(5, 10); DqnV2 vecA = DqnV2_(5, 10);
DqnV2 vecB = DqnV2(2, 3); DqnV2 vecB = DqnV2_(2, 3);
DQN_ASSERT(DqnV2_Equals(vecA, vecB) == false); DQN_ASSERT(DqnV2_Equals(vecA, vecB) == false);
DQN_ASSERT(DqnV2_Equals(vecA, DqnV2(5, 10)) == true); DQN_ASSERT(DqnV2_Equals(vecA, DqnV2_(5, 10)) == true);
DQN_ASSERT(DqnV2_Equals(vecB, DqnV2(2, 3)) == true); DQN_ASSERT(DqnV2_Equals(vecB, DqnV2_(2, 3)) == true);
DqnV2 result = DqnV2_Add(vecA, DqnV2(5, 10)); DqnV2 result = DqnV2_Add(vecA, DqnV2_(5, 10));
DQN_ASSERT(DqnV2_Equals(result, DqnV2(10, 20)) == true); DQN_ASSERT(DqnV2_Equals(result, DqnV2_(10, 20)) == true);
result = DqnV2_Sub(result, DqnV2(5, 10)); result = DqnV2_Sub(result, DqnV2_(5, 10));
DQN_ASSERT(DqnV2_Equals(result, DqnV2(5, 10)) == true); DQN_ASSERT(DqnV2_Equals(result, DqnV2_(5, 10)) == true);
result = DqnV2_Scalef(result, 5); result = DqnV2_Scalef(result, 5);
DQN_ASSERT(DqnV2_Equals(result, DqnV2(25, 50)) == true); DQN_ASSERT(DqnV2_Equals(result, DqnV2_(25, 50)) == true);
result = DqnV2_Hadamard(result, DqnV2(10.0f, 0.5f)); result = DqnV2_Hadamard(result, DqnV2_(10.0f, 0.5f));
DQN_ASSERT(DqnV2_Equals(result, DqnV2(250, 25)) == true); DQN_ASSERT(DqnV2_Equals(result, DqnV2_(250, 25)) == true);
f32 dotResult = DqnV2_Dot(DqnV2(5, 10), DqnV2(3, 4)); f32 dotResult = DqnV2_Dot(DqnV2_(5, 10), DqnV2_(3, 4));
DQN_ASSERT(dotResult == 55); DQN_ASSERT(dotResult == 55);
LogSuccess("DqnV2(): Arithmetic"); LogSuccess("DqnV2_(): Arithmetic");
} }
// Test operator overloading // Test operator overloading
if (1) if (1)
{ {
DqnV2 vecA = DqnV2(5, 10); DqnV2 vecA = DqnV2_(5, 10);
DqnV2 vecB = DqnV2(2, 3); DqnV2 vecB = DqnV2_(2, 3);
DQN_ASSERT((vecA == vecB) == false); DQN_ASSERT((vecA == vecB) == false);
DQN_ASSERT((vecA == DqnV2(5, 10)) == true); DQN_ASSERT((vecA == DqnV2_(5, 10)) == true);
DQN_ASSERT((vecB == DqnV2(2, 3)) == true); DQN_ASSERT((vecB == DqnV2_(2, 3)) == true);
DqnV2 result = vecA + DqnV2(5, 10); DqnV2 result = vecA + DqnV2_(5, 10);
DQN_ASSERT((result == DqnV2(10, 20)) == true); DQN_ASSERT((result == DqnV2_(10, 20)) == true);
result -= DqnV2(5, 10); result -= DqnV2_(5, 10);
DQN_ASSERT((result == DqnV2(5, 10)) == true); DQN_ASSERT((result == DqnV2_(5, 10)) == true);
result *= 5; result *= 5;
DQN_ASSERT((result == DqnV2(25, 50)) == true); DQN_ASSERT((result == DqnV2_(25, 50)) == true);
result = result * DqnV2(10.0f, 0.5f); result = result * DqnV2_(10.0f, 0.5f);
DQN_ASSERT((result == DqnV2(250, 25)) == true); DQN_ASSERT((result == DqnV2_(250, 25)) == true);
result += DqnV2(1, 1); result += DqnV2_(1, 1);
DQN_ASSERT((result == DqnV2(251, 26)) == true); DQN_ASSERT((result == DqnV2_(251, 26)) == true);
result = result - DqnV2(1, 1); result = result - DqnV2_(1, 1);
DQN_ASSERT((result == DqnV2(250, 25)) == true); DQN_ASSERT((result == DqnV2_(250, 25)) == true);
LogSuccess("DqnV2(): operator overloading"); LogSuccess("DqnV2_(): operator overloading");
} }
// V2 Properties // V2 Properties
if (1) if (1)
{ {
const f32 EPSILON = 0.001f; const f32 EPSILON = 0.001f;
DqnV2 a = DqnV2(0, 0); DqnV2 a = DqnV2_(0, 0);
DqnV2 b = DqnV2(3, 4); DqnV2 b = DqnV2_(3, 4);
f32 lengthSq = DqnV2_LengthSquared(a, b); f32 lengthSq = DqnV2_LengthSquared(a, b);
DQN_ASSERT(lengthSq == 25); DQN_ASSERT(lengthSq == 25);
@ -796,21 +796,21 @@ void DqnVX_Test()
DQN_ASSERT_MSG(diffNormY < EPSILON, "normalised.y: %f, normY: %f\n", normalised.y, DQN_ASSERT_MSG(diffNormY < EPSILON, "normalised.y: %f, normY: %f\n", normalised.y,
normY); normY);
DqnV2 c = DqnV2(3.5f, 8.0f); DqnV2 c = DqnV2_(3.5f, 8.0f);
DQN_ASSERT(DqnV2_Overlaps(b, c) == true); DQN_ASSERT(DqnV2_Overlaps(b, c) == true);
DQN_ASSERT(DqnV2_Overlaps(b, a) == false); DQN_ASSERT(DqnV2_Overlaps(b, a) == false);
DqnV2 d = DqnV2_Perpendicular(c); DqnV2 d = DqnV2_Perpendicular(c);
DQN_ASSERT(DqnV2_Dot(c, d) == 0); DQN_ASSERT(DqnV2_Dot(c, d) == 0);
LogSuccess("DqnV2(): LengthSquared, Length, Normalize, Overlaps, Perp"); LogSuccess("DqnV2_(): LengthSquared, Length, Normalize, Overlaps, Perp");
} }
// V2 ConstrainToRatio // V2 ConstrainToRatio
if (1) if (1)
{ {
DqnV2 ratio = DqnV2(16, 9); DqnV2 ratio = DqnV2_(16, 9);
DqnV2 dim = DqnV2(2000, 1080); DqnV2 dim = DqnV2_(2000, 1080);
DqnV2 result = DqnV2_ConstrainToRatio(dim, ratio); DqnV2 result = DqnV2_ConstrainToRatio(dim, ratio);
DQN_ASSERT(result.w == 1920 && result.h == 1080); DQN_ASSERT(result.w == 1920 && result.h == 1080);
LogSuccess("DqnV2->ConstrainToRatio()"); LogSuccess("DqnV2->ConstrainToRatio()");
@ -823,77 +823,77 @@ void DqnVX_Test()
// V3i Creating // V3i Creating
if (1) if (1)
{ {
DqnV3 vec = DqnV3(5.5f, 5.0f, 5.875f); DqnV3 vec = DqnV3_(5.5f, 5.0f, 5.875f);
DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f && vec.z == 5.875f); DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f && vec.z == 5.875f);
DQN_ASSERT(vec.r == 5.5f && vec.g == 5.0f && vec.b == 5.875f); DQN_ASSERT(vec.r == 5.5f && vec.g == 5.0f && vec.b == 5.875f);
LogSuccess("DqnV3(): Creating"); LogSuccess("DqnV3_(): Creating");
} }
// V3i Creating // V3i Creating
if (1) if (1)
{ {
DqnV3 vec = DqnV3(3, 4, 5); DqnV3 vec = DqnV3_(3, 4, 5);
DQN_ASSERT(vec.x == 3 && vec.y == 4 && vec.z == 5); DQN_ASSERT(vec.x == 3 && vec.y == 4 && vec.z == 5);
DQN_ASSERT(vec.r == 3 && vec.g == 4 && vec.b == 5); DQN_ASSERT(vec.r == 3 && vec.g == 4 && vec.b == 5);
LogSuccess("DqnV3(): Creating"); LogSuccess("DqnV3_(): Creating");
} }
// V3 Arithmetic // V3 Arithmetic
if (1) if (1)
{ {
DqnV3 vecA = DqnV3(5, 10, 15); DqnV3 vecA = DqnV3_(5, 10, 15);
DqnV3 vecB = DqnV3(2, 3, 6); DqnV3 vecB = DqnV3_(2, 3, 6);
DQN_ASSERT(DqnV3_Equals(vecA, vecB) == false); DQN_ASSERT(DqnV3_Equals(vecA, vecB) == false);
DQN_ASSERT(DqnV3_Equals(vecA, DqnV3(5, 10, 15)) == true); DQN_ASSERT(DqnV3_Equals(vecA, DqnV3_(5, 10, 15)) == true);
DQN_ASSERT(DqnV3_Equals(vecB, DqnV3(2, 3, 6)) == true); DQN_ASSERT(DqnV3_Equals(vecB, DqnV3_(2, 3, 6)) == true);
DqnV3 result = DqnV3_Add(vecA, DqnV3(5, 10, 15)); DqnV3 result = DqnV3_Add(vecA, DqnV3_(5, 10, 15));
DQN_ASSERT(DqnV3_Equals(result, DqnV3(10, 20, 30)) == true); DQN_ASSERT(DqnV3_Equals(result, DqnV3_(10, 20, 30)) == true);
result = DqnV3_Sub(result, DqnV3(5, 10, 15)); result = DqnV3_Sub(result, DqnV3_(5, 10, 15));
DQN_ASSERT(DqnV3_Equals(result, DqnV3(5, 10, 15)) == true); DQN_ASSERT(DqnV3_Equals(result, DqnV3_(5, 10, 15)) == true);
result = DqnV3_Scalef(result, 5); result = DqnV3_Scalef(result, 5);
DQN_ASSERT(DqnV3_Equals(result, DqnV3(25, 50, 75)) == true); DQN_ASSERT(DqnV3_Equals(result, DqnV3_(25, 50, 75)) == true);
result = DqnV3_Hadamard(result, DqnV3(10.0f, 0.5f, 10.0f)); result = DqnV3_Hadamard(result, DqnV3_(10.0f, 0.5f, 10.0f));
DQN_ASSERT(DqnV3_Equals(result, DqnV3(250, 25, 750)) == true); DQN_ASSERT(DqnV3_Equals(result, DqnV3_(250, 25, 750)) == true);
f32 dotResult = DqnV3_Dot(DqnV3(5, 10, 2), DqnV3(3, 4, 6)); f32 dotResult = DqnV3_Dot(DqnV3_(5, 10, 2), DqnV3_(3, 4, 6));
DQN_ASSERT(dotResult == 67); DQN_ASSERT(dotResult == 67);
DqnV3 cross = DqnV3_Cross(vecA, vecB); DqnV3 cross = DqnV3_Cross(vecA, vecB);
DQN_ASSERT(DqnV3_Equals(cross, DqnV3(15, 0, -5)) == true); DQN_ASSERT(DqnV3_Equals(cross, DqnV3_(15, 0, -5)) == true);
LogSuccess("DqnV3(): Arithmetic"); LogSuccess("DqnV3_(): Arithmetic");
} }
// V3 More Arithmetic // V3 More Arithmetic
if (1) if (1)
{ {
DqnV3 vecA = DqnV3(5, 10, 15); DqnV3 vecA = DqnV3_(5, 10, 15);
DqnV3 vecB = DqnV3(2, 3, 6); DqnV3 vecB = DqnV3_(2, 3, 6);
DQN_ASSERT((vecA == vecB) == false); DQN_ASSERT((vecA == vecB) == false);
DQN_ASSERT((vecA == DqnV3(5, 10, 15)) == true); DQN_ASSERT((vecA == DqnV3_(5, 10, 15)) == true);
DQN_ASSERT((vecB == DqnV3(2, 3, 6)) == true); DQN_ASSERT((vecB == DqnV3_(2, 3, 6)) == true);
DqnV3 result = vecA + DqnV3(5, 10, 15); DqnV3 result = vecA + DqnV3_(5, 10, 15);
DQN_ASSERT((result == DqnV3(10, 20, 30)) == true); DQN_ASSERT((result == DqnV3_(10, 20, 30)) == true);
result -= DqnV3(5, 10, 15); result -= DqnV3_(5, 10, 15);
DQN_ASSERT((result == DqnV3(5, 10, 15)) == true); DQN_ASSERT((result == DqnV3_(5, 10, 15)) == true);
result = result * 5; result = result * 5;
DQN_ASSERT((result == DqnV3(25, 50, 75)) == true); DQN_ASSERT((result == DqnV3_(25, 50, 75)) == true);
result *= DqnV3(10.0f, 0.5f, 10.0f); result *= DqnV3_(10.0f, 0.5f, 10.0f);
DQN_ASSERT((result == DqnV3(250, 25, 750)) == true); DQN_ASSERT((result == DqnV3_(250, 25, 750)) == true);
result = result - DqnV3(1, 1, 1); result = result - DqnV3_(1, 1, 1);
DQN_ASSERT((result == DqnV3(249, 24, 749)) == true); DQN_ASSERT((result == DqnV3_(249, 24, 749)) == true);
result += DqnV3(1, 1, 1); result += DqnV3_(1, 1, 1);
DQN_ASSERT((result == DqnV3(250, 25, 750)) == true); DQN_ASSERT((result == DqnV3_(250, 25, 750)) == true);
LogSuccess("DqnV3(): More Arithmetic"); LogSuccess("DqnV3_(): More Arithmetic");
} }
} }
@ -904,74 +904,74 @@ void DqnVX_Test()
// V4 Creating // V4 Creating
if (1) if (1)
{ {
DqnV4 vec = DqnV4(5.5f, 5.0f, 5.875f, 5.928f); DqnV4 vec = DqnV4_(5.5f, 5.0f, 5.875f, 5.928f);
DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f && vec.z == 5.875f && vec.w == 5.928f); DQN_ASSERT(vec.x == 5.5f && vec.y == 5.0f && vec.z == 5.875f && vec.w == 5.928f);
DQN_ASSERT(vec.r == 5.5f && vec.g == 5.0f && vec.b == 5.875f && vec.a == 5.928f); DQN_ASSERT(vec.r == 5.5f && vec.g == 5.0f && vec.b == 5.875f && vec.a == 5.928f);
LogSuccess("DqnV4(): Creating"); LogSuccess("DqnV4_(): Creating");
} }
// V4i Creating // V4i Creating
if (1) if (1)
{ {
DqnV4 vec = DqnV4(3, 4, 5, 6); DqnV4 vec = DqnV4_(3, 4, 5, 6);
DQN_ASSERT(vec.x == 3 && vec.y == 4 && vec.z == 5 && vec.w == 6); DQN_ASSERT(vec.x == 3 && vec.y == 4 && vec.z == 5 && vec.w == 6);
DQN_ASSERT(vec.r == 3 && vec.g == 4 && vec.b == 5 && vec.a == 6); DQN_ASSERT(vec.r == 3 && vec.g == 4 && vec.b == 5 && vec.a == 6);
LogSuccess("DqnV4(): Integer ctor creating"); LogSuccess("DqnV4_(): Integer ctor creating");
} }
// V4 Arithmetic // V4 Arithmetic
if (1) if (1)
{ {
DqnV4 vecA = DqnV4(5, 10, 15, 20); DqnV4 vecA = DqnV4_(5, 10, 15, 20);
DqnV4 vecB = DqnV4(2, 3, 6, 8); DqnV4 vecB = DqnV4_(2, 3, 6, 8);
DQN_ASSERT(DqnV4_Equals(vecA, vecB) == false); DQN_ASSERT(DqnV4_Equals(vecA, vecB) == false);
DQN_ASSERT(DqnV4_Equals(vecA, DqnV4(5, 10, 15, 20)) == true); DQN_ASSERT(DqnV4_Equals(vecA, DqnV4_(5, 10, 15, 20)) == true);
DQN_ASSERT(DqnV4_Equals(vecB, DqnV4(2, 3, 6, 8)) == true); DQN_ASSERT(DqnV4_Equals(vecB, DqnV4_(2, 3, 6, 8)) == true);
DqnV4 result = DqnV4_Add(vecA, DqnV4(5, 10, 15, 20)); DqnV4 result = DqnV4_Add(vecA, DqnV4_(5, 10, 15, 20));
DQN_ASSERT(DqnV4_Equals(result, DqnV4(10, 20, 30, 40)) == true); DQN_ASSERT(DqnV4_Equals(result, DqnV4_(10, 20, 30, 40)) == true);
result = DqnV4_Sub(result, DqnV4(5, 10, 15, 20)); result = DqnV4_Sub(result, DqnV4_(5, 10, 15, 20));
DQN_ASSERT(DqnV4_Equals(result, DqnV4(5, 10, 15, 20)) == true); DQN_ASSERT(DqnV4_Equals(result, DqnV4_(5, 10, 15, 20)) == true);
result = DqnV4_Scalef(result, 5); result = DqnV4_Scalef(result, 5);
DQN_ASSERT(DqnV4_Equals(result, DqnV4(25, 50, 75, 100)) == true); DQN_ASSERT(DqnV4_Equals(result, DqnV4_(25, 50, 75, 100)) == true);
result = DqnV4_Hadamard(result, DqnV4(10.0f, 0.5f, 10.0f, 0.25f)); result = DqnV4_Hadamard(result, DqnV4_(10.0f, 0.5f, 10.0f, 0.25f));
DQN_ASSERT(DqnV4_Equals(result, DqnV4(250, 25, 750, 25)) == true); DQN_ASSERT(DqnV4_Equals(result, DqnV4_(250, 25, 750, 25)) == true);
f32 dotResult = DqnV4_Dot(DqnV4(5, 10, 2, 8), DqnV4(3, 4, 6, 5)); f32 dotResult = DqnV4_Dot(DqnV4_(5, 10, 2, 8), DqnV4_(3, 4, 6, 5));
DQN_ASSERT(dotResult == 107); DQN_ASSERT(dotResult == 107);
LogSuccess("DqnV4(): Arithmetic"); LogSuccess("DqnV4_(): Arithmetic");
} }
// V4 More Arthmetic // V4 More Arthmetic
if (1) if (1)
{ {
DqnV4 vecA = DqnV4(5, 10, 15, 20); DqnV4 vecA = DqnV4_(5, 10, 15, 20);
DqnV4 vecB = DqnV4(2, 3, 6, 8); DqnV4 vecB = DqnV4_(2, 3, 6, 8);
DQN_ASSERT((vecA == vecB) == false); DQN_ASSERT((vecA == vecB) == false);
DQN_ASSERT((vecA == DqnV4(5, 10, 15, 20)) == true); DQN_ASSERT((vecA == DqnV4_(5, 10, 15, 20)) == true);
DQN_ASSERT((vecB == DqnV4(2, 3, 6, 8)) == true); DQN_ASSERT((vecB == DqnV4_(2, 3, 6, 8)) == true);
DqnV4 result = vecA + DqnV4(5, 10, 15, 20); DqnV4 result = vecA + DqnV4_(5, 10, 15, 20);
DQN_ASSERT((result == DqnV4(10, 20, 30, 40)) == true); DQN_ASSERT((result == DqnV4_(10, 20, 30, 40)) == true);
result = result - DqnV4(5, 10, 15, 20); result = result - DqnV4_(5, 10, 15, 20);
DQN_ASSERT((result == DqnV4(5, 10, 15, 20)) == true); DQN_ASSERT((result == DqnV4_(5, 10, 15, 20)) == true);
result = result * 5; result = result * 5;
DQN_ASSERT((result == DqnV4(25, 50, 75, 100)) == true); DQN_ASSERT((result == DqnV4_(25, 50, 75, 100)) == true);
result *= DqnV4(10.0f, 0.5f, 10.0f, 0.25f); result *= DqnV4_(10.0f, 0.5f, 10.0f, 0.25f);
DQN_ASSERT((result == DqnV4(250, 25, 750, 25)) == true); DQN_ASSERT((result == DqnV4_(250, 25, 750, 25)) == true);
result += DqnV4(1, 1, 1, 1); result += DqnV4_(1, 1, 1, 1);
DQN_ASSERT((result == DqnV4(251, 26, 751, 26)) == true); DQN_ASSERT((result == DqnV4_(251, 26, 751, 26)) == true);
result -= DqnV4(1, 1, 1, 1); result -= DqnV4_(1, 1, 1, 1);
DQN_ASSERT((result == DqnV4(250, 25, 750, 25)) == true); DQN_ASSERT((result == DqnV4_(250, 25, 750, 25)) == true);
LogSuccess("DqnV4(): More Arthmetic"); LogSuccess("DqnV4_(): More Arthmetic");
} }
} }
} }
@ -984,8 +984,8 @@ void DqnRect_Test()
// Test rect init functions // Test rect init functions
if (1) if (1)
{ {
DqnRect rect4f = DqnRect(1.1f, 2.2f, 3.3f, 4.4f); DqnRect rect4f = DqnRect_(1.1f, 2.2f, 3.3f, 4.4f);
DqnRect rect4i = DqnRect(1, 2, 3, 4); DqnRect rect4i = DqnRect_(1, 2, 3, 4);
DQN_ASSERT(rect4i.min.x == 1 && rect4i.min.y == 2); DQN_ASSERT(rect4i.min.x == 1 && rect4i.min.y == 2);
DQN_ASSERT(rect4i.max.x == 4 && rect4i.max.y == 6); DQN_ASSERT(rect4i.max.x == 4 && rect4i.max.y == 6);
@ -996,10 +996,10 @@ void DqnRect_Test()
DQN_ASSERT(rect4f.min.x == 1.1f && rect4f.min.y == 2.2f); DQN_ASSERT(rect4f.min.x == 1.1f && rect4f.min.y == 2.2f);
DQN_ASSERT(DQN_ABS(diffMaxX) < EPSILON && DQN_ABS(diffMaxY) < EPSILON); DQN_ASSERT(DQN_ABS(diffMaxX) < EPSILON && DQN_ABS(diffMaxY) < EPSILON);
DqnRect rect = DqnRect(-10, -10, 20, 20); DqnRect rect = DqnRect_(-10, -10, 20, 20);
DQN_ASSERT(DqnV2_Equals(rect.min, DqnV2(-10, -10))); DQN_ASSERT(DqnV2_Equals(rect.min, DqnV2_(-10, -10)));
DQN_ASSERT(DqnV2_Equals(rect.max, DqnV2(10, 10))); DQN_ASSERT(DqnV2_Equals(rect.max, DqnV2_(10, 10)));
LogSuccess("DqnRect(): Test rect init functions"); LogSuccess("DqnRect_(): Test rect init functions");
} }
// Test rect get size function // Test rect get size function
@ -1008,7 +1008,7 @@ void DqnRect_Test()
// Test float rect // Test float rect
if (1) if (1)
{ {
DqnRect rect = DqnRect(DqnV2(-10, -10), DqnV2(20, 20)); DqnRect rect = DqnRect_(DqnV2_(-10, -10), DqnV2_(20, 20));
f32 width, height; f32 width, height;
rect.GetSize(&width, &height); rect.GetSize(&width, &height);
@ -1016,19 +1016,19 @@ void DqnRect_Test()
DQN_ASSERT(height == 20); DQN_ASSERT(height == 20);
DqnV2 dim = rect.GetSize(); DqnV2 dim = rect.GetSize();
DQN_ASSERT(DqnV2_Equals(dim, DqnV2(20, 20))); DQN_ASSERT(DqnV2_Equals(dim, DqnV2_(20, 20)));
LogSuccess("DqnRect->GetSize(): Test float rect"); LogSuccess("DqnRect->GetSize(): Test float rect");
} }
} }
// Test rect get centre // Test rect get centre
DqnRect rect = DqnRect(DqnV2(-10, -10), DqnV2(20, 20)); DqnRect rect = DqnRect_(DqnV2_(-10, -10), DqnV2_(20, 20));
DqnV2 rectCenter = rect.GetCenter(); DqnV2 rectCenter = rect.GetCenter();
DQN_ASSERT(DqnV2_Equals(rectCenter, DqnV2(0, 0))); DQN_ASSERT(DqnV2_Equals(rectCenter, DqnV2_(0, 0)));
LogSuccess("DqnRect->GetCentre()"); LogSuccess("DqnRect->GetCentre()");
// Test clipping rect get centre // Test clipping rect get centre
DqnRect clipRect = DqnRect(-15, -15, 10, 10); DqnRect clipRect = DqnRect_(DqnV2_(-15, -15), DqnV2_(10, 10) + DqnV2_(15));
DqnRect clipResult = rect.ClipRect(clipRect); DqnRect clipResult = rect.ClipRect(clipRect);
DQN_ASSERT(clipResult.min.x == -10 && clipResult.min.y == -10); DQN_ASSERT(clipResult.min.x == -10 && clipResult.min.y == -10);
DQN_ASSERT(clipResult.max.x == 10 && clipResult.max.y == 10); DQN_ASSERT(clipResult.max.x == 10 && clipResult.max.y == 10);
@ -1037,9 +1037,9 @@ void DqnRect_Test()
// Test shifting rect // Test shifting rect
if (1) if (1)
{ {
DqnRect shiftedRect = rect.Move(DqnV2(10, 0)); DqnRect shiftedRect = rect.Move(DqnV2_(10, 0));
DQN_ASSERT(DqnV2_Equals(shiftedRect.min, DqnV2(0, -10))); DQN_ASSERT(DqnV2_Equals(shiftedRect.min, DqnV2_(0, -10)));
DQN_ASSERT(DqnV2_Equals(shiftedRect.max, DqnV2(20, 10))); DQN_ASSERT(DqnV2_Equals(shiftedRect.max, DqnV2_(20, 10)));
// Ensure dimensions have remained the same // Ensure dimensions have remained the same
if (1) if (1)
@ -1050,14 +1050,14 @@ void DqnRect_Test()
DQN_ASSERT(height == 20); DQN_ASSERT(height == 20);
DqnV2 dim = shiftedRect.GetSize(); DqnV2 dim = shiftedRect.GetSize();
DQN_ASSERT(DqnV2_Equals(dim, DqnV2(20, 20))); DQN_ASSERT(DqnV2_Equals(dim, DqnV2_(20, 20)));
} }
// Test rect contains p // Test rect contains p
if (1) if (1)
{ {
DqnV2 inP = DqnV2(5, 5); DqnV2 inP = DqnV2_(5, 5);
DqnV2 outP = DqnV2(100, 100); DqnV2 outP = DqnV2_(100, 100);
DQN_ASSERT(shiftedRect.ContainsP(inP)); DQN_ASSERT(shiftedRect.ContainsP(inP));
DQN_ASSERT(!shiftedRect.ContainsP(outP)); DQN_ASSERT(!shiftedRect.ContainsP(outP));
} }
@ -1081,7 +1081,7 @@ void DqnArray_TestInternal(const DqnMemAPI memAPI)
// Test basic insert // Test basic insert
if (1) if (1)
{ {
DqnV2 va = DqnV2(5, 10); DqnV2 va = DqnV2_(5, 10);
DQN_ASSERT(array.Push(va)); DQN_ASSERT(array.Push(va));
DqnV2 vb = array.data[0]; DqnV2 vb = array.data[0];
@ -1095,7 +1095,7 @@ void DqnArray_TestInternal(const DqnMemAPI memAPI)
// Test array resizing and freeing // Test array resizing and freeing
if (1) if (1)
{ {
DqnV2 va = DqnV2(10, 15); DqnV2 va = DqnV2_(10, 15);
DQN_ASSERT(array.Push(va)); DQN_ASSERT(array.Push(va));
DqnV2 vb = array.data[0]; DqnV2 vb = array.data[0];
@ -1143,7 +1143,7 @@ void DqnArray_TestInternal(const DqnMemAPI memAPI)
DQN_ASSERT(array.max >= 11); DQN_ASSERT(array.max >= 11);
DQN_ASSERT(array.count == 11); DQN_ASSERT(array.count == 11);
DqnV2 vc = DqnV2(90, 100); DqnV2 vc = DqnV2_(90, 100);
DQN_ASSERT(array.Push(vc)); DQN_ASSERT(array.Push(vc));
DQN_ASSERT(array.max >= 12); DQN_ASSERT(array.max >= 12);
DQN_ASSERT(array.count == 12); DQN_ASSERT(array.count == 12);
@ -1165,10 +1165,10 @@ void DqnArray_TestInternal(const DqnMemAPI memAPI)
if (1) if (1)
{ {
DqnV2 a = DqnV2(1, 2); DqnV2 a = DqnV2_(1, 2);
DqnV2 b = DqnV2(3, 4); DqnV2 b = DqnV2_(3, 4);
DqnV2 c = DqnV2(5, 6); DqnV2 c = DqnV2_(5, 6);
DqnV2 d = DqnV2(7, 8); DqnV2 d = DqnV2_(7, 8);
DQN_ASSERT(array.Init(16, memAPI)); DQN_ASSERT(array.Init(16, memAPI));
DQN_ASSERT(array.Remove(0) == false); DQN_ASSERT(array.Remove(0) == false);
@ -1214,10 +1214,10 @@ void DqnArray_TestInternal(const DqnMemAPI memAPI)
if (1) if (1)
{ {
DqnV2 a = DqnV2(1, 2); DqnV2 a = DqnV2_(1, 2);
DqnV2 b = DqnV2(3, 4); DqnV2 b = DqnV2_(3, 4);
DqnV2 c = DqnV2(5, 6); DqnV2 c = DqnV2_(5, 6);
DqnV2 d = DqnV2(7, 8); DqnV2 d = DqnV2_(7, 8);
DQN_ASSERT(array.Init(16, memAPI)); DQN_ASSERT(array.Init(16, memAPI));
@ -2277,152 +2277,251 @@ void DqnHashTable_Test()
LogSuccess("DqnHashTable()"); LogSuccess("DqnHashTable()");
} }
void Dqn_BinarySearch_Test() void Dqn_BSearch_Test()
{ {
LogHeader("Dqn_BinarySearch"); LogHeader("Dqn_BSearch");
if (1) if (1)
{ {
auto compare = [](const u32 &a, const u32 &b) -> bool { auto IsLessThan = [](const u32 &a, const u32 &b) -> bool {
bool result = a < b; bool result = a < b;
return result; return result;
}; };
auto Equals = [](const u32 &a, const u32 &b) -> bool {
bool result = (a == b);
return result;
};
u32 array[] = {1, 2, 3}; u32 array[] = {1, 2, 3};
i64 result = Dqn_BinarySearch<u32>(array, DQN_ARRAY_COUNT(array), 1, compare); i64 result = Dqn_BSearch<u32>(array, DQN_ARRAY_COUNT(array), 1, Equals, IsLessThan);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch<u32>(array, DQN_ARRAY_COUNT(array), 2, compare); result = Dqn_BSearch<u32>(array, DQN_ARRAY_COUNT(array), 2, Equals, IsLessThan);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch<u32>(array, DQN_ARRAY_COUNT(array), 3, compare); result = Dqn_BSearch<u32>(array, DQN_ARRAY_COUNT(array), 3, Equals, IsLessThan);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch<u32>(array, DQN_ARRAY_COUNT(array), 4, compare); result = Dqn_BSearch<u32>(array, DQN_ARRAY_COUNT(array), 4, Equals, IsLessThan);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
LogSuccess("Dqn_BinarySearch(): With odd sized array and custom compare"); LogSuccess("Dqn_BSearch(): With odd sized array and custom compare");
} }
if (1) if (1)
{ {
u32 array[] = {1, 2, 3, 4}; i64 array[] = {1, 2, 3, 4};
i64 result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 1); i64 result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 1);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 2); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 2);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 3); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 3);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 4); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 4);
DQN_ASSERT(result == 3); DQN_ASSERT(result == 3);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 5); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 5);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
LogSuccess("Dqn_BinarySearch(): With even sized array"); LogSuccess("Dqn_BSearch(): With even sized array");
} }
if (1) if (1)
{ {
i32 array[] = {1, 2, 3}; i64 array[] = {1, 2, 3};
i64 result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BinarySearchBound_Lower); i64 result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
LogSuccess("Dqn_BinarySearch(): Lower bound with odd sized array"); LogSuccess("Dqn_BSearch(): Lower bound with odd sized array");
} }
if (1) if (1)
{ {
i32 array[] = {1, 2, 3, 4}; i64 array[] = {1, 2, 3, 4};
i64 result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BinarySearchBound_Lower); i64 result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 3); DQN_ASSERT(result == 3);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 6, Dqn_BinarySearchBound_Lower); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 6, Dqn_BSearchBound_Lower);
DQN_ASSERT(result == 3); DQN_ASSERT(result == 3);
LogSuccess("Dqn_BinarySearch(): Lower bound with even sized array"); LogSuccess("Dqn_BSearch(): Lower bound with even sized array");
} }
if (1) if (1)
{ {
i32 array[] = {1, 2, 3}; i64 array[] = {1, 2, 3};
i64 result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BinarySearchBound_Higher); i64 result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
LogSuccess("Dqn_BinarySearch(): Higher bound with odd sized array"); LogSuccess("Dqn_BSearch(): Higher bound with odd sized array");
} }
if (1) if (1)
{ {
i32 array[] = {1, 2, 3, 4}; i64 array[] = {1, 2, 3, 4};
i64 result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BinarySearchBound_Higher); i64 result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 0, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 0); DQN_ASSERT(result == 0);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 1, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 1); DQN_ASSERT(result == 1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 2, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 2); DQN_ASSERT(result == 2);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 3, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == 3); DQN_ASSERT(result == 3);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 4, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 5, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
result = Dqn_BinarySearch(array, DQN_ARRAY_COUNT(array), 6, Dqn_BinarySearchBound_Higher); result = Dqn_BSearch(array, DQN_ARRAY_COUNT(array), 6, Dqn_BSearchBound_Higher);
DQN_ASSERT(result == -1); DQN_ASSERT(result == -1);
LogSuccess("Dqn_BinarySearch(): Higher bound with even sized array"); LogSuccess("Dqn_BSearch(): Higher bound with even sized array");
} }
} }
void DqnMemSet_Test()
{
LogHeader("DqnMemSet Test");
DqnRndPCG rnd = DqnRndPCG_();
const int NUM_TIMINGS = 5;
#if defined(DQN_WIN32_IMPLEMENTATION)
f64 timings[3][NUM_TIMINGS] = {};
#else
f64 timings[2][NUM_TIMINGS] = {};
#endif
f64 avgTimings[DQN_ARRAY_COUNT(timings)] = {};
void *buffers[DQN_ARRAY_COUNT(timings)] = {};
const i32 NUM_ITERATIONS = DQN_ARRAY_COUNT(timings[0]);
for (auto i = 0; i < NUM_ITERATIONS; i++)
{
i32 size = rnd.Range(DQN_MEGABYTE(16), DQN_MEGABYTE(32));
u8 value = (u8)rnd.Range(0, 255);
printf("%04d:", i);
i32 timingsIndex = 0;
// DqnMem_Set
{
buffers[timingsIndex] = malloc(size); DQN_ASSERT(buffers[timingsIndex]);
f64 start = DqnTimer_NowInMs();
DqnMem_Set(buffers[timingsIndex], value, size);
f64 duration = DqnTimer_NowInMs() - start;
timings[timingsIndex++][i] = duration;
printf("DqnMem_Set: %8.3f vs ", duration);
}
#if defined(DQN_WIN32_IMPLEMENTATION)
// DqnMem_Set64
{
buffers[timingsIndex] = malloc(size); DQN_ASSERT(buffers[timingsIndex]);
f64 start = DqnTimer_NowInMs();
DqnMem_Set64(buffers[timingsIndex], value, size);
f64 duration = DqnTimer_NowInMs() - start;
timings[timingsIndex++][i] = duration;
printf("DqnMem_Set: %8.3f vs ", duration);
}
#endif
// crt memset
{
buffers[timingsIndex] = malloc(size); DQN_ASSERT(buffers[timingsIndex]);
f64 start = DqnTimer_NowInMs();
memset(buffers[timingsIndex], value, size);
f64 duration = DqnTimer_NowInMs() - start;
timings[timingsIndex++][i] = duration;
printf("memset: %8.3f\n", duration);
}
for (auto testIndex = 0; testIndex < size; testIndex++)
{
DQN_ASSERT(((u8 *)buffers[0])[testIndex] == ((u8 *)buffers[1])[testIndex]);
DQN_ASSERT(((u8 *)buffers[1])[testIndex] == ((u8 *)buffers[2])[testIndex]);
}
for (auto bufferIndex = 0; bufferIndex < DQN_ARRAY_COUNT(buffers); bufferIndex++)
{
free(buffers[bufferIndex]);
}
}
for (auto timingsIndex = 0; timingsIndex < DQN_ARRAY_COUNT(timings); timingsIndex++)
{
f64 totalTime = 0;
for (auto iterationIndex = 0; iterationIndex < NUM_ITERATIONS; iterationIndex++)
{
totalTime += timings[timingsIndex][iterationIndex];
}
avgTimings[timingsIndex] = totalTime / (f64)NUM_ITERATIONS;
}
printf("\n- Average Timings\n");
#if defined(DQN_WIN32_IMPLEMENTATION)
printf(" DqnMem_Set: %f vs DqnMem_Set64: %f vs memset: %f\n", avgTimings[0], avgTimings[1],
avgTimings[2]);
#else
printf(" DqnMem_Set: %f vs memset: %f\n", avgTimings[0], avgTimings[1]);
#endif
LogSuccess("DqnMem_Set(): Completed succesfully");
}
int main(void) int main(void)
{ {
DqnString_Test(); DqnString_Test();
@ -2435,7 +2534,8 @@ int main(void)
DqnMemStack_Test(); DqnMemStack_Test();
DqnQuickSort_Test(); DqnQuickSort_Test();
DqnHashTable_Test(); DqnHashTable_Test();
Dqn_BinarySearch_Test(); Dqn_BSearch_Test();
DqnMemSet_Test();
#ifdef DQN_XPLATFORM_LAYER #ifdef DQN_XPLATFORM_LAYER
DqnFile_Test(); DqnFile_Test();