diff --git a/kraken/KRContext.cpp b/kraken/KRContext.cpp index 7d611f6..075da6a 100755 --- a/kraken/KRContext.cpp +++ b/kraken/KRContext.cpp @@ -627,8 +627,8 @@ void KRContext::doStreaming() const long KRENGINE_RESERVE_MEMORY = 0x4000000; // 64MB getMemoryStats(free_memory); - free_memory = KRCLAMP(free_memory - KRENGINE_RESERVE_MEMORY, 0, KRENGINE_GPU_MEM_TARGET); - total_memory = KRMIN(KRENGINE_GPU_MEM_MAX, free_memory * 3 / 4 + m_pTextureManager->getMemUsed() + m_pMeshManager->getMemUsed()); + free_memory = std::clamp(free_memory - KRENGINE_RESERVE_MEMORY, 0, KRENGINE_GPU_MEM_TARGET); + total_memory = std::min(KRENGINE_GPU_MEM_MAX, free_memory * 3 / 4 + m_pTextureManager->getMemUsed() + m_pMeshManager->getMemUsed()); #endif */ diff --git a/kraken/KRHelpers.h b/kraken/KRHelpers.h index cbf3678..14e4953 100644 --- a/kraken/KRHelpers.h +++ b/kraken/KRHelpers.h @@ -38,9 +38,6 @@ #include "simdjson.h" -#define KRMIN(x,y) ((x) < (y) ? (x) : (y)) -#define KRMAX(x,y) ((x) > (y) ? (x) : (y)) -#define KRCLAMP(x, min, max) (KRMAX(KRMIN(x, max), min)) #define KRALIGN(x) ((x + 3) & ~0x03) float const PI = 3.141592653589793f; diff --git a/kraken/KROctreeNode.cpp b/kraken/KROctreeNode.cpp index 7472752..afc2fd6 100755 --- a/kraken/KROctreeNode.cpp +++ b/kraken/KROctreeNode.cpp @@ -254,7 +254,7 @@ bool KROctreeNode::sphereCast(const Vector3& v0, const Vector3& v1, float radius } else { */ - AABB swept_bounds = AABB::Create(Vector3::Create(KRMIN(v0.x, v1.x) - radius, KRMIN(v0.y, v1.y) - radius, KRMIN(v0.z, v1.z) - radius), Vector3::Create(KRMAX(v0.x, v1.x) + radius, KRMAX(v0.y, v1.y) + radius, KRMAX(v0.z, v1.z) + radius)); + AABB swept_bounds = AABB::Create(Vector3::Create(std::min(v0.x, v1.x) - radius, std::min(v0.y, v1.y) - radius, std::min(v0.z, v1.z) - radius), Vector3::Create(std::max(v0.x, v1.x) + radius, std::max(v0.y, v1.y) + radius, std::max(v0.z, v1.z) + radius)); // FINDME, TODO - Investigate AABB - swept sphere intersections or OBB - AABB intersections: "if(getBounds().intersectsSweptSphere(v0, v1, radius)) {" if (getBounds().intersects(swept_bounds)) { diff --git a/kraken/KRViewport.cpp b/kraken/KRViewport.cpp index 68009b2..584d78e 100755 --- a/kraken/KRViewport.cpp +++ b/kraken/KRViewport.cpp @@ -233,7 +233,7 @@ float KRViewport::coverage(const AABB& b) const float screen_depth = distance / 1000.0f; - return KRCLAMP(1.0f - screen_depth, 0.01f, 1.0f); + return std::clamp(1.0f - screen_depth, 0.01f, 1.0f); /* @@ -253,13 +253,13 @@ float KRViewport::coverage(const AABB& b) const } } - screen_min.x = KRCLAMP(screen_min.x, 0.0f, 1.0f); - screen_min.y = KRCLAMP(screen_min.y, 0.0f, 1.0f); - screen_max.x = KRCLAMP(screen_max.x, 0.0f, 1.0f); - screen_max.y = KRCLAMP(screen_max.y, 0.0f, 1.0f); + screen_min.x = std::clamp(screen_min.x, 0.0f, 1.0f); + screen_min.y = std::clamp(screen_min.y, 0.0f, 1.0f); + screen_max.x = std::clamp(screen_max.x, 0.0f, 1.0f); + screen_max.y = std::clamp(screen_max.y, 0.0f, 1.0f); float c = (screen_max.x - screen_min.x) * (screen_max.y - screen_min.y); - return KRCLAMP(c, 0.01f, 1.0f); + return std::clamp(c, 0.01f, 1.0f); */ } } diff --git a/kraken/nodes/KRAmbientZone.cpp b/kraken/nodes/KRAmbientZone.cpp index 460f1c2..d482e12 100755 --- a/kraken/nodes/KRAmbientZone.cpp +++ b/kraken/nodes/KRAmbientZone.cpp @@ -173,7 +173,7 @@ float KRAmbientZone::getContainment(const Vector3& pos) d = d > 1.0f ? 0.0f : 1.0f; } else { d = (1.0f - d) / m_gradient_distance; - d = KRCLAMP(d, 0.0f, 1.0f); + d = std::clamp(d, 0.0f, 1.0f); } return d; diff --git a/kraken/nodes/KRCollider.cpp b/kraken/nodes/KRCollider.cpp index be77b4c..143613d 100755 --- a/kraken/nodes/KRCollider.cpp +++ b/kraken/nodes/KRCollider.cpp @@ -162,8 +162,8 @@ bool KRCollider::sphereCast(const Vector3& v0, const Vector3& v1, float radius, loadModel(); if (m_model.val.isBound()) { AABB sphereCastBounds = AABB::Create( // TODO - Need to cache this; perhaps encasulate within a "spherecast" class to be passed through these functions - Vector3::Create(KRMIN(v0.x, v1.x) - radius, KRMIN(v0.y, v1.y) - radius, KRMIN(v0.z, v1.z) - radius), - Vector3::Create(KRMAX(v0.x, v1.x) + radius, KRMAX(v0.y, v1.y) + radius, KRMAX(v0.z, v1.z) + radius) + Vector3::Create(std::min(v0.x, v1.x) - radius, std::min(v0.y, v1.y) - radius, std::min(v0.z, v1.z) - radius), + Vector3::Create(std::max(v0.x, v1.x) + radius, std::max(v0.y, v1.y) + radius, std::max(v0.z, v1.z) + radius) ); if (getBounds().intersects(sphereCastBounds)) { diff --git a/kraken/nodes/KRLODSet.cpp b/kraken/nodes/KRLODSet.cpp index 4c00b0a..e060645 100755 --- a/kraken/nodes/KRLODSet.cpp +++ b/kraken/nodes/KRLODSet.cpp @@ -79,7 +79,7 @@ void KRLODSet::updateLODVisibility(const KRViewport& viewport) for (KRNode* childNode = m_firstChildNode; childNode != nullptr; childNode = childNode->m_nextNode) { KRLODGroup* lod_group = dynamic_cast(childNode); assert(lod_group != NULL); - LodVisibility group_lod_visibility = KRMIN(lod_group->calcLODVisibility(viewport), m_lod_visible); + LodVisibility group_lod_visibility = std::min(lod_group->calcLODVisibility(viewport), m_lod_visible); /* // FINDME, TODO, HACK - Disabled streamer delayed LOD load due to performance issues: if(group_lod_visibility == LOD_VISIBILITY_VISIBLE) { @@ -105,7 +105,7 @@ void KRLODSet::updateLODVisibility(const KRViewport& viewport) for (KRNode* childNode = m_firstChildNode; childNode != nullptr; childNode = childNode->m_nextNode) { KRLODGroup* lod_group = dynamic_cast(childNode); assert(lod_group != NULL); - LodVisibility group_lod_visibility = KRMIN(lod_group->calcLODVisibility(viewport), m_lod_visible); + LodVisibility group_lod_visibility = std::min(lod_group->calcLODVisibility(viewport), m_lod_visible); lod_group->setLODVisibility(group_lod_visibility); } } diff --git a/kraken/nodes/KRModel.cpp b/kraken/nodes/KRModel.cpp index df856ac..dc828ac 100755 --- a/kraken/nodes/KRModel.cpp +++ b/kraken/nodes/KRModel.cpp @@ -319,7 +319,7 @@ kraken_stream_level KRModel::getStreamLevel(const KRViewport& viewport) for (int lod = 0; lod < kMeshLODCount; lod++) { if (m_meshes[lod].val.isBound()) { - stream_level = KRMIN(stream_level, m_meshes[lod].val.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_meshes[lod].val.get()->getStreamLevel()); } } diff --git a/kraken/nodes/KRNode.cpp b/kraken/nodes/KRNode.cpp index 594f5cf..d0f9096 100755 --- a/kraken/nodes/KRNode.cpp +++ b/kraken/nodes/KRNode.cpp @@ -1167,7 +1167,7 @@ kraken_stream_level KRNode::getStreamLevel(const KRViewport& viewport) kraken_stream_level stream_level = kraken_stream_level::STREAM_LEVEL_IN_HQ; for (KRNode* child = m_firstChildNode; child != nullptr; child = child->m_nextNode) { - stream_level = KRMIN(stream_level, child->getStreamLevel(viewport)); + stream_level = std::min(stream_level, child->getStreamLevel(viewport)); } return stream_level; diff --git a/kraken/nodes/KRReverbZone.cpp b/kraken/nodes/KRReverbZone.cpp index 054816a..7e0d9e5 100755 --- a/kraken/nodes/KRReverbZone.cpp +++ b/kraken/nodes/KRReverbZone.cpp @@ -171,7 +171,7 @@ float KRReverbZone::getContainment(const Vector3& pos) d = d > 1.0f ? 0.0f : 1.0f; } else { d = (1.0f - d) / m_gradient_distance; - d = KRCLAMP(d, 0.0f, 1.0f); + d = std::clamp(d, 0.0f, 1.0f); } return d; diff --git a/kraken/resources/KRResourceRequest.h b/kraken/resources/KRResourceRequest.h index cd61a34..239a846 100644 --- a/kraken/resources/KRResourceRequest.h +++ b/kraken/resources/KRResourceRequest.h @@ -40,7 +40,7 @@ public: KRResourceRequest(KRResource* resource, uint64_t usage, float lodCoverage = 0.0f) : resource(resource) , usage(usage) - , coverage(static_cast(KRCLAMP(lodCoverage / 1.0f * 255.f, 0, 255.f))) + , coverage(static_cast(std::clamp(lodCoverage / 1.0f * 255.f, 0.f, 255.f))) { } diff --git a/kraken/resources/audio/KRAudioManager.cpp b/kraken/resources/audio/KRAudioManager.cpp index aa8ff8a..4d47bfb 100755 --- a/kraken/resources/audio/KRAudioManager.cpp +++ b/kraken/resources/audio/KRAudioManager.cpp @@ -238,7 +238,7 @@ void KRAudioManager::renderReverbImpulseResponse(int impulse_response_offset, in for (unordered_map::iterator zone_itr = m_reverb_zone_weights.begin(); zone_itr != m_reverb_zone_weights.end(); zone_itr++) { siren_reverb_zone_weight_info zi = (*zone_itr).second; if (zi.reverb_sample) { - if (impulse_response_offset < KRMIN(zi.reverb_sample->getFrameCount(), m_reverb_max_length * 44100)) { // Optimization - when mixing multiple impulse responses (i.e. fading between reverb zones), do not process blocks past the end of a shorter impulse response sample when they differ in length + if (impulse_response_offset < std::min((int)zi.reverb_sample->getFrameCount(), (int)m_reverb_max_length * 44100)) { // Optimization - when mixing multiple impulse responses (i.e. fading between reverb zones), do not process blocks past the end of a shorter impulse response sample when they differ in length if (first_sample) { // If this is the first or only sample, write directly to the first half of the FFT input buffer first_sample = false; @@ -313,8 +313,8 @@ void KRAudioManager::renderReverb() for (unordered_map::iterator zone_itr = m_reverb_zone_weights.begin(); zone_itr != m_reverb_zone_weights.end(); zone_itr++) { siren_reverb_zone_weight_info zi = (*zone_itr).second; if (zi.reverb_sample) { - int zone_sample_blocks = KRMIN((int)zi.reverb_sample->getFrameCount(), (int)(m_reverb_max_length * 44100.0f)) / KRENGINE_AUDIO_BLOCK_LENGTH + 1; - impulse_response_blocks = KRMAX(impulse_response_blocks, zone_sample_blocks); + int zone_sample_blocks = std::min((int)zi.reverb_sample->getFrameCount(), (int)(m_reverb_max_length * 44100.0f)) / KRENGINE_AUDIO_BLOCK_LENGTH + 1; + impulse_response_blocks = std::max(impulse_response_blocks, zone_sample_blocks); } } @@ -1483,10 +1483,10 @@ void KRAudioManager::startFrame(float deltaTime) Vector3 source_world_position = source->getWorldTranslation(); Vector3 diff = source_world_position - m_listener_position; float distance = diff.magnitude(); - float gain = source->getGain() * m_global_gain / pow(KRMAX(distance / source->getReferenceDistance(), 1.0f), source->getRolloffFactor()); + float gain = source->getGain() * m_global_gain / pow(std::max(distance / source->getReferenceDistance(), 1.0f), source->getRolloffFactor()); // apply minimum-cutoff so that we don't waste cycles processing very quiet / distant sound sources - gain = KRMAX(gain - KRENGINE_AUDIO_CUTOFF, 0.0f) / (1.0f - KRENGINE_AUDIO_CUTOFF); + gain = std::max(gain - KRENGINE_AUDIO_CUTOFF, 0.0f) / (1.0f - KRENGINE_AUDIO_CUTOFF); if (gain > 0.0f) { diff --git a/kraken/resources/audio/KRAudioSample.cpp b/kraken/resources/audio/KRAudioSample.cpp index 1d73993..c33ccde 100755 --- a/kraken/resources/audio/KRAudioSample.cpp +++ b/kraken/resources/audio/KRAudioSample.cpp @@ -98,7 +98,7 @@ float KRAudioSample::sample(int frame_offset, int frame_rate, int channel) { loadInfo(); - int c = KRMIN(channel, m_channelsPerFrame - 1); + int c = std::min(channel, m_channelsPerFrame - 1); if (frame_offset < 0) { return 0.0f; // Past the beginning of the recording @@ -154,7 +154,7 @@ void KRAudioSample::sample(__int64_t frame_offset, int frame_count, int channel, } } } else { - int c = KRMIN(channel, m_channelsPerFrame - 1); + int c = std::min(channel, m_channelsPerFrame - 1); if (frame_offset + frame_count <= 0) { // Range is entirely before the sample @@ -354,7 +354,7 @@ void KRAudioSample::PopulateBuffer(KRAudioSample* sound, int index, void* data) { int maxFramesPerBuffer = KRENGINE_AUDIO_MAX_BUFFER_SIZE / sound->m_bytesPerFrame; int startFrame = index * maxFramesPerBuffer; - __uint32_t frameCount = (__uint32_t)KRMIN(sound->m_totalFrames - startFrame, maxFramesPerBuffer); + __uint32_t frameCount = std::min((__uint32_t)sound->m_totalFrames - startFrame, (__uint32_t)maxFramesPerBuffer); #ifdef __APPLE__ // Apple Audio Toolbox @@ -376,7 +376,7 @@ KRAudioBuffer* KRAudioSample::getBuffer(int index) int maxFramesPerBuffer = KRENGINE_AUDIO_MAX_BUFFER_SIZE / m_bytesPerFrame; int startFrame = index * maxFramesPerBuffer; - __uint32_t frameCount = (__uint32_t)KRMIN(m_totalFrames - startFrame, maxFramesPerBuffer); + __uint32_t frameCount = std::min((__uint32_t)m_totalFrames - startFrame, (__uint32_t)maxFramesPerBuffer); KRAudioBuffer* buffer = new KRAudioBuffer(getContext().getAudioManager(), this, index, frameCount, m_frameRate, m_bytesPerFrame, PopulateBuffer); diff --git a/kraken/resources/material/KRMaterial.cpp b/kraken/resources/material/KRMaterial.cpp index 07eb617..c0e7024 100755 --- a/kraken/resources/material/KRMaterial.cpp +++ b/kraken/resources/material/KRMaterial.cpp @@ -697,47 +697,47 @@ kraken_stream_level KRMaterial::getStreamLevel() kraken_stream_level stream_level = kraken_stream_level::STREAM_LEVEL_IN_HQ; if (m_baseColorMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_baseColorMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_baseColorMap.texture.get()->getStreamLevel()); } if (m_normalMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_normalMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_normalMap.texture.get()->getStreamLevel()); } if (m_occlusionMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_occlusionMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_occlusionMap.texture.get()->getStreamLevel()); } if (m_metalicRoughnessMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_metalicRoughnessMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_metalicRoughnessMap.texture.get()->getStreamLevel()); } if (m_anisotropyMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_anisotropyMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_anisotropyMap.texture.get()->getStreamLevel()); } if (m_clearcoatMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_clearcoatMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_clearcoatMap.texture.get()->getStreamLevel()); } if (m_clearcoatRoughnessMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_clearcoatRoughnessMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_clearcoatRoughnessMap.texture.get()->getStreamLevel()); } if (m_clearcoatNormalMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_clearcoatNormalMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_clearcoatNormalMap.texture.get()->getStreamLevel()); } if (m_specularMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_specularMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_specularMap.texture.get()->getStreamLevel()); } if (m_specularColorMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_specularColorMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_specularColorMap.texture.get()->getStreamLevel()); } if (m_thicknessMap.texture.isBound()) { - stream_level = KRMIN(stream_level, m_thicknessMap.texture.get()->getStreamLevel()); + stream_level = std::min(stream_level, m_thicknessMap.texture.get()->getStreamLevel()); } return stream_level; diff --git a/kraken/resources/mesh/KRMesh.cpp b/kraken/resources/mesh/KRMesh.cpp index b62d261..1611d2f 100755 --- a/kraken/resources/mesh/KRMesh.cpp +++ b/kraken/resources/mesh/KRMesh.cpp @@ -209,7 +209,7 @@ kraken_stream_level KRMesh::getStreamLevel() for (KRMaterialBinding& material : m_materials) { if (material.isBound()) { - stream_level = KRMIN(stream_level, material.get()->getStreamLevel()); + stream_level = std::min(stream_level, material.get()->getStreamLevel()); } } bool all_vbo_data_loaded = true; diff --git a/kraken/resources/mesh/KRMeshManager.cpp b/kraken/resources/mesh/KRMeshManager.cpp index 8872ff6..84aa7de 100755 --- a/kraken/resources/mesh/KRMeshManager.cpp +++ b/kraken/resources/mesh/KRMeshManager.cpp @@ -641,7 +641,7 @@ void KRMeshManager::KRVBOData::requestResidency(float lodCoverage) m_manager->primeVBO(this); } - m_last_frame_max_lod_coverage = KRMAX(lodCoverage, m_last_frame_max_lod_coverage); + m_last_frame_max_lod_coverage = std::max(lodCoverage, m_last_frame_max_lod_coverage); } @@ -649,7 +649,7 @@ float KRMeshManager::KRVBOData::getStreamPriority() { long current_frame = m_manager->getContext().getCurrentFrame(); if (current_frame > m_last_frame_used + 5) { - return 1.0f - KRCLAMP((float)(current_frame - m_last_frame_used) / 60.0f, 0.0f, 1.0f); + return 1.0f - std::clamp((float)(current_frame - m_last_frame_used) / 60.0f, 0.0f, 1.0f); } else { return 10000.0f + m_last_frame_max_lod_coverage * 10.0f; } diff --git a/kraken/resources/scene/KRScene.cpp b/kraken/resources/scene/KRScene.cpp index 16f5c8a..5c7ee7d 100755 --- a/kraken/resources/scene/KRScene.cpp +++ b/kraken/resources/scene/KRScene.cpp @@ -476,7 +476,7 @@ kraken_stream_level KRScene::getStreamLevel() if (m_pRootNode) { KRViewport viewport; // This isn't used when prime is false - stream_level = KRMIN(stream_level, m_pRootNode->getStreamLevel(viewport)); + stream_level = std::min(stream_level, m_pRootNode->getStreamLevel(viewport)); } return stream_level; diff --git a/kraken/resources/texture/KRTexture.cpp b/kraken/resources/texture/KRTexture.cpp index d0449a6..39f0d41 100755 --- a/kraken/resources/texture/KRTexture.cpp +++ b/kraken/resources/texture/KRTexture.cpp @@ -122,7 +122,7 @@ void KRTexture::resize(int lod) if (!m_haveNewHandles) { if (lod != -1) { - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); if (m_new_lod != target_lod || m_handles.empty()) { assert(m_newTextureMemUsed == 0); @@ -161,7 +161,7 @@ void KRTexture::requestResidency(float lodCoverage, KRTexture::texture_usage_t t getContext().getTextureManager()->primeTexture(this); } - m_last_frame_max_lod_coverage = KRMAX(lodCoverage, m_last_frame_max_lod_coverage); + m_last_frame_max_lod_coverage = std::max(lodCoverage, m_last_frame_max_lod_coverage); m_last_frame_usage = static_cast(static_cast(m_last_frame_usage) | static_cast(textureUsage)); } @@ -180,7 +180,7 @@ float KRTexture::getStreamPriority() { long current_frame = getContext().getCurrentFrame(); if (current_frame > m_last_frame_used + 5) { - return 1.0f - KRCLAMP((float)(current_frame - m_last_frame_used) / 60.0f, 0.0f, 1.0f); + return 1.0f - std::clamp((float)(current_frame - m_last_frame_used) / 60.0f, 0.0f, 1.0f); } else { float priority = 100.0f; if (m_last_frame_usage & (TEXTURE_USAGE_UI | TEXTURE_USAGE_SHADOW_DEPTH)) { @@ -294,7 +294,7 @@ bool KRTexture::allocate(KRDevice& device, int target_lod, VkImageCreateFlags im #endif ) { - int min_mip = KRMIN(target_lod, m_lod_count - 1); + int min_mip = std::min(target_lod, m_lod_count - 1); int mip_count = m_lod_count - min_mip; hydra::Vector3i dimensions = getDimensions() / (1 << target_lod); @@ -335,8 +335,8 @@ bool KRTexture::allocate(KRDevice& device, int target_lod, VkImageCreateFlags im long KRTexture::getMemRequiredForLodRange(int min_lod, int max_lod /* = 0xff */) { - int target_max_lod = KRMIN(max_lod, m_lod_count - 1); - int target_min_lod = KRMIN(min_lod, m_lod_count - 1); + int target_max_lod = std::min(max_lod, m_lod_count - 1); + int target_min_lod = std::min(min_lod, m_lod_count - 1); long memRequired = 0; for (int lod = target_min_lod; lod <= target_max_lod; lod++) { diff --git a/kraken/resources/texture/KRTexture2D.cpp b/kraken/resources/texture/KRTexture2D.cpp index 359ec41..94f953f 100755 --- a/kraken/resources/texture/KRTexture2D.cpp +++ b/kraken/resources/texture/KRTexture2D.cpp @@ -84,7 +84,7 @@ bool KRTexture2D::createGPUTexture(int targetLod) break; } - int min_mip = KRMIN(targetLod, m_lod_count - 1); + int min_mip = std::min(targetLod, m_lod_count - 1); int mip_count = m_lod_count - min_mip; VkImageViewCreateInfo viewInfo{}; diff --git a/kraken/resources/texture/KRTextureKTX.cpp b/kraken/resources/texture/KRTextureKTX.cpp index 6a8e241..4e12eb2 100755 --- a/kraken/resources/texture/KRTextureKTX.cpp +++ b/kraken/resources/texture/KRTextureKTX.cpp @@ -62,7 +62,7 @@ KRTextureKTX::KRTextureKTX(KRContext& context, Block* data, std::string name) : uint32_t blockStart = sizeof(KTXHeader) + m_header.bytesOfKeyValueData; uint32_t width = m_header.pixelWidth, height = m_header.pixelHeight; - for (int mipmap_level = 0; mipmap_level < (int)KRMAX(m_header.numberOfMipmapLevels, 1); mipmap_level++) { + for (int mipmap_level = 0; mipmap_level < (int)std::max(m_header.numberOfMipmapLevels, (__uint32_t)1); mipmap_level++) { uint32_t blockLength; data->copy(&blockLength, blockStart, 4); blockStart += 4; @@ -82,7 +82,7 @@ KRTextureKTX::KRTextureKTX(KRContext& context, Block* data, std::string name) : } } - m_lod_count = (int)KRMAX(m_header.numberOfMipmapLevels, 1); + m_lod_count = (int)std::max(m_header.numberOfMipmapLevels, (__uint32_t)1); } KRTextureKTX::KRTextureKTX(KRContext& context, std::string name, unsigned int internal_format, unsigned int base_internal_format, int width, int height, const std::list& blocks) : KRTexture2D(context, new Block(), name) @@ -362,7 +362,7 @@ VkFormat KRTextureKTX::getFormat() const long KRTextureKTX::getMemRequiredForLod(int lod) { - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); return (long)m_blocks[target_lod]->getSize(); } @@ -372,7 +372,7 @@ bool KRTextureKTX::getLodData(void* buffer, int lod) return false; } - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); m_blocks[target_lod]->copy(buffer); return true; diff --git a/kraken/resources/texture/KRTextureKTX2.cpp b/kraken/resources/texture/KRTextureKTX2.cpp index 42669b4..efd9874 100644 --- a/kraken/resources/texture/KRTextureKTX2.cpp +++ b/kraken/resources/texture/KRTextureKTX2.cpp @@ -68,7 +68,7 @@ KRTextureKTX2::KRTextureKTX2(KRContext& context, Block* data, std::string name) if (height < 1) { height = 1; } - m_lod_count = (int)KRMAX(m_header.levelCount, 1); + m_lod_count = (int)std::max(m_header.levelCount, (__uint32_t)1); } KRTextureKTX2::~KRTextureKTX2() @@ -82,7 +82,7 @@ Vector3i KRTextureKTX2::getDimensions() const long KRTextureKTX2::getMemRequiredForLod(int lod) { - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); KTX2LevelIndex levelIndex; m_pData->copy(&levelIndex, sizeof(m_header) + sizeof(KTX2LevelIndex) * target_lod, sizeof(KTX2LevelIndex)); @@ -93,7 +93,7 @@ long KRTextureKTX2::getMemRequiredForLod(int lod) bool KRTextureKTX2::getLodData(void* buffer, int lod) { unsigned char* converted_image = (unsigned char*)buffer; - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); KTX2LevelIndex levelIndex; m_pData->copy(&levelIndex, sizeof(m_header) + sizeof(KTX2LevelIndex) * target_lod, sizeof(KTX2LevelIndex)); @@ -120,4 +120,4 @@ VkFormat KRTextureKTX2::getFormat() const { // TODO - Implement return VK_FORMAT_UNDEFINED; -} \ No newline at end of file +} diff --git a/kraken/resources/texture/KRTextureManager.cpp b/kraken/resources/texture/KRTextureManager.cpp index 272d4de..18093bb 100755 --- a/kraken/resources/texture/KRTextureManager.cpp +++ b/kraken/resources/texture/KRTextureManager.cpp @@ -302,7 +302,7 @@ void KRTextureManager::balanceTextureMemory(long& memoryRemaining, long& memoryR for (auto itr = m_activeTextures_streamer.begin(); itr != m_activeTextures_streamer.end(); itr++) { KRTexture* texture = (*itr).second; - int min_lod_level = KRMIN(getContext().KRENGINE_TEXTURE_LQ_LOD, texture->getLodCount() - 1); + int min_lod_level = std::min(getContext().KRENGINE_TEXTURE_LQ_LOD, texture->getLodCount() - 1); long minLodMem = texture->getMemRequiredForLodRange(min_lod_level); memoryRemaining -= minLodMem; @@ -331,8 +331,8 @@ void KRTextureManager::balanceTextureMemory(long& memoryRemaining, long& memoryR } KRTexture* texture = (*itr).second; - int min_lod_level = KRMIN(getContext().KRENGINE_TEXTURE_LQ_LOD, texture->getLodCount()); - int target_lod_level = KRMIN(getContext().KRENGINE_TEXTURE_HQ_LOD + mip_drop, texture->getLodCount()); + int min_lod_level = std::min(getContext().KRENGINE_TEXTURE_LQ_LOD, texture->getLodCount()); + int target_lod_level = std::min(getContext().KRENGINE_TEXTURE_HQ_LOD + mip_drop, texture->getLodCount()); long targetMem = texture->getMemRequiredForLodRange(target_lod_level); long additionalMemRequired = targetMem - texture->getMemRequiredForLodRange(min_lod_level); memoryRemainingThisMip -= additionalMemRequired; diff --git a/kraken/resources/texture/KRTexturePVR.cpp b/kraken/resources/texture/KRTexturePVR.cpp index 6f8ef4e..16160a4 100755 --- a/kraken/resources/texture/KRTexturePVR.cpp +++ b/kraken/resources/texture/KRTexturePVR.cpp @@ -174,7 +174,7 @@ VkFormat KRTexturePVR::getFormat() const long KRTexturePVR::getMemRequiredForLod(int lod) { - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); return m_blocks[target_lod]->getSize(); } @@ -184,7 +184,7 @@ bool KRTexturePVR::getLodData(void* buffer, int lod) return false; } - int target_lod = KRMIN(lod, m_lod_count - 1); + int target_lod = std::min(lod, m_lod_count - 1); m_blocks[target_lod]->copy(buffer); return true; }