Merge branch 'main' into SP3-141-Camera-System

This commit is contained in:
maverickdgg 2022-11-01 15:31:11 +08:00
commit d917159f67
49 changed files with 1439 additions and 723 deletions

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@ -1,3 +1,3 @@
Name: DeferredComposite_CS
ID: 42814284
ID: 45072428
Type: 2

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@ -1,3 +1,3 @@
Name: TestCube_FS
ID: 37450402
ID: 46377769
Type: 2

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@ -1,3 +1,3 @@
Name: TestCube_VS
ID: 41688429
ID: 39210065
Type: 2

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@ -128,7 +128,6 @@ namespace Sandbox
floorRigidBody.SetType(SHRigidBodyComponent::Type::STATIC);
auto* floorBox = floorCollider.AddBoundingBox();
floorBox->SetHalfExtents(floorTransform.GetWorldScale() * 0.5f);
// Create blank entity with a script
//testObj = SHADE::SHEntityManager::CreateEntity<SHRenderable, SHTransformComponent>();

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@ -10,6 +10,7 @@
*****************************************************************************/
#pragma once
#include <vulkan/vulkan.hpp>
#include "SHAssetData.h"
#include "SH_API.h"
#include <vector>
@ -17,12 +18,14 @@
namespace SHADE
{
//! Tighter control over types of shaders. Maps directly to their
//! equivalent vk::ShaderStageFlagBits.
enum class SH_SHADER_TYPE : uint8_t
{
VERTEX,
FRAGMENT,
COMPUTE,
INAVLID_TYPE
VERTEX = static_cast<uint8_t>(vk::ShaderStageFlagBits::eVertex),
FRAGMENT = static_cast<uint8_t>(vk::ShaderStageFlagBits::eFragment),
COMPUTE = static_cast<uint8_t>(vk::ShaderStageFlagBits::eCompute),
INAVLID_TYPE = std::numeric_limits<uint8_t>::max()
};
struct SH_API SHShaderAsset : SHAssetData

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@ -99,11 +99,12 @@ namespace SHADE
SH_SHADER_TYPE SHShaderSourceCompiler::GetShaderTypeFromFilename(std::string name) noexcept
{
for (auto i { 0}; i < SHADER_TYPE_MAX_COUNT; ++i)
for (auto i { 0 }; i < SHADER_TYPE_MAX_COUNT; ++i)
{
if (name.find(SHADER_IDENTIFIERS[i].data()) != std::string::npos)
const auto& [SHADER_SUFFIX, SHADER_TYPE] = SHADER_IDENTIFIERS[i];
if (name.find(SHADER_SUFFIX.data()) != std::string::npos)
{
return static_cast<SH_SHADER_TYPE>(i);
return SHADER_TYPE;
}
}

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@ -11,6 +11,10 @@
#pragma once
#include "SHAssetLoader.h"
#include "Assets/Asset Types/SHPrefabAsset.h"
#include "Assets/Asset Types/SHSceneAsset.h"
#include "Assets/Asset Types/SHMaterialAsset.h"
namespace SHADE
{
struct SHTextBasedLoader : SHAssetLoader

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@ -13,6 +13,7 @@
#include <cstdint>
#include <string>
#include <filesystem>
#include "Asset Types/SHShaderAsset.h"
// FMOD Fwd Declare
namespace FMOD
@ -113,10 +114,10 @@ constexpr std::string_view VERTEX_SHADER{ "_VS" };
constexpr std::string_view FRAGMENT_SHADER{ "_FS" };
constexpr std::string_view COMPUTER_SHADER{ "_CS" };
constexpr std::string_view SHADER_IDENTIFIERS[] = {
VERTEX_SHADER,
FRAGMENT_SHADER,
COMPUTER_SHADER
constexpr std::pair<std::string_view, SHADE::SH_SHADER_TYPE> SHADER_IDENTIFIERS[] = {
std::make_pair(VERTEX_SHADER, SHADE::SH_SHADER_TYPE::VERTEX),
std::make_pair(FRAGMENT_SHADER, SHADE::SH_SHADER_TYPE::FRAGMENT),
std::make_pair(COMPUTER_SHADER, SHADE::SH_SHADER_TYPE::COMPUTE)
};
constexpr size_t SHADER_TYPE_MAX_COUNT{ 3 };

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@ -151,19 +151,23 @@ namespace SHADE
****************************************************************************/
AssetID SHAssetManager::CreateNewAsset(AssetType type, AssetName name) noexcept
{
SHAssetData* data = nullptr;
std::string newPath{ ASSET_ROOT };
switch (type)
{
case AssetType::PREFAB:
newPath += PREFAB_FOLDER;
data = new SHPrefabAsset();
break;
case AssetType::SCENE:
newPath += SCENE_FOLDER;
data = new SHSceneAsset();
break;
case AssetType::MATERIAL:
newPath += MATERIAL_FOLDER;
data = new SHMaterialAsset();
break;
default:
@ -189,6 +193,8 @@ namespace SHADE
)
});
assetData.emplace(id, data);
return id;
}

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@ -33,19 +33,19 @@ namespace SHADE
return;
}
std::vector<SHComponentRemovedEvent> eventVec;
for (uint32_t i = 0; i < componentSet.Size(); ++i)
{
SHComponent* comp = (SHComponent*) componentSet.GetElement(i, EntityHandleGenerator::GetIndex(entityID));
if (comp)
{
comp->OnDestroy();
}
SHComponentRemovedEvent eventData;
eventData.eid = entityID;
eventData.removedComponentType = i;
SHEventManager::BroadcastEvent<SHComponentRemovedEvent>(eventData, SH_COMPONENT_REMOVED_EVENT);
eventVec.push_back(eventData);
}
}
@ -57,6 +57,12 @@ namespace SHADE
componentSet.RemoveElements(EntityHandleGenerator::GetIndex(entityID));
for (auto& eventData : eventVec)
{
SHEventManager::BroadcastEvent<SHComponentRemovedEvent>(eventData, SH_COMPONENT_REMOVED_EVENT);
}
//entityHandle.RemoveHandle(entityID);

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@ -251,7 +251,7 @@ namespace SHADE
SHEditorWidgets::DragVec3
(
"Half Extents", { "X", "Y", "Z" },
[box, transformComponent] { return (transformComponent->GetWorldScale() * 2.0f) * box->GetHalfExtents(); },
[box, transformComponent] { return (box->GetHalfExtents() * 2.0f) / transformComponent->GetWorldScale(); },
[collider](SHVec3 const& vec) { collider->SetBoundingBox(vec); });
}
else if (collider->GetType() == SHCollider::Type::SPHERE)

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@ -37,6 +37,8 @@ of DigiPen Institute of Technology is prohibited.
#include "Assets/Asset Types/SHTextureAsset.h"
#include "Graphics/MiddleEnd/Interface/SHMousePickSystem.h"
#include "Graphics/MiddleEnd/Lights/SHLightingSubSystem.h"
#include "Assets/SHAssetManager.h"
#include "Resource/SHResourceManager.h"
namespace SHADE
{
@ -109,9 +111,10 @@ namespace SHADE
transferCmdBuffer = graphicsCmdPool->RequestCommandBuffer(SH_CMD_BUFFER_TYPE::PRIMARY);
graphicsTexCmdBuffer = graphicsCmdPool->RequestCommandBuffer(SH_CMD_BUFFER_TYPE::PRIMARY);
shaderModuleLibrary.ImportAllShaderSource(device);
shaderModuleLibrary.ReflectAllShaderModules();
// Load Built In Shaders
static constexpr AssetID VS_DEFAULT = 39210065; defaultVertShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(VS_DEFAULT);
static constexpr AssetID FS_DEFAULT = 46377769; defaultFragShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(FS_DEFAULT);
static constexpr AssetID CS_COMPOSITE = 45072428; deferredCompositeShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(CS_COMPOSITE);
}
void SHGraphicsSystem::InitSceneRenderGraph(void) noexcept
@ -180,16 +183,7 @@ namespace SHADE
gBufferSubpass->AddColorOutput("Albedo");
gBufferSubpass->AddDepthOutput("Depth Buffer", SH_ATT_DESC_TYPE_FLAGS::DEPTH_STENCIL);
//// kirsch
//auto kirschShader = shaderModuleLibrary.GetShaderModule("KirschCs.glsl");
//gBufferNode->AddNodeCompute(kirschShader, { "Position", "Scene" });
//// copy
//auto pureCopyShader = shaderModuleLibrary.GetShaderModule("PureCopyCs.glsl");
//gBufferNode->AddNodeCompute(pureCopyShader, { "Position", "Scene" });
// deferred composite
auto deferredCompositeShader = shaderModuleLibrary.GetBuiltInShaderModule("DeferredComposite_CS");
gBufferNode->AddNodeCompute(deferredCompositeShader, { "Position", "Normals", "Albedo", "Light Layer Indices", "Scene" });
@ -207,10 +201,7 @@ namespace SHADE
worldRenderer->SetCameraDirector(cameraSystem->CreateDirector());
auto cubeVS = shaderModuleLibrary.GetBuiltInShaderModule("TestCube_VS");
auto cubeFS = shaderModuleLibrary.GetBuiltInShaderModule("TestCube_FS");
defaultMaterial = AddMaterial(cubeVS, cubeFS, gBufferSubpass);
defaultMaterial = AddMaterial(defaultVertShader, defaultFragShader, gBufferSubpass);
}
void SHGraphicsSystem::InitMiddleEnd(void) noexcept

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@ -25,7 +25,6 @@ of DigiPen Institute of Technology is prohibited.
#include "ECS_Base/System/SHSystemRoutine.h"
#include "Graphics/Descriptors/SHVkDescriptorPool.h"
#include "Graphics/RenderGraph/SHRenderGraph.h"
#include "Graphics/MiddleEnd/Shaders/SHShaderModuleLibrary.h"
#include "SHMeshLibrary.h"
#include "Graphics/MiddleEnd/Materials/SHMaterialInstanceCache.h"
#include "../Textures/SHTextureLibrary.h"
@ -329,6 +328,7 @@ namespace SHADE
SHTextureLibrary texLibrary;
SHSamplerCache samplerCache;
SHMaterialInstanceCache materialInstanceCache;
// Viewports
#ifdef SHEDITOR
Handle<SHViewport> editorViewport;
@ -350,9 +350,12 @@ namespace SHADE
Handle<SHCamera> worldCamera;
Handle<SHCamera> screenCamera;
SHShaderModuleLibrary shaderModuleLibrary;
// Built-In Shaders
Handle<SHVkShaderModule> defaultVertShader;
Handle<SHVkShaderModule> defaultFragShader;
Handle<SHVkShaderModule> deferredCompositeShader;
// Temp Materials
// Built-In Materials
Handle<SHMaterial> defaultMaterial;
Handle<SHRenderGraph> worldRenderGraph;

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@ -0,0 +1,36 @@
/************************************************************************************//*!
\file SHMaterialSpec.h
\author Tng Kah Wei, kahwei.tng, 390009620
\par email: kahwei.tng\@digipen.edu
\date Oct 31, 2022
\brief Contains the struct definition of SHMaterialSpec.
Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
#pragma once
// Standard Library
#include <string>
#include <vector>
#include <utility>
// Project Includes
#include "Assets/SHAssetMacros.h"
namespace SHADE
{
/*************************************************************************************/
/*!
\brief
Describes a Material's serialized properties. A representation of a material that is
independent of GPU resources.
*/
/*************************************************************************************/
struct SHMaterialSpec
{
AssetID vertexShader;
AssetID fragShader;
std::string subpassName;
YAML::Node properties;
};
}

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@ -1,139 +0,0 @@
#include "SHPch.h"
#include "SHShaderModuleLibrary.h"
#include "Graphics/Devices/SHVkLogicalDevice.h"
#include "Assets/SHAssetManager.h"
namespace SHADE
{
/***************************************************************************/
/*!
\brief
Imports all shader binaries from the source library.
\param logicalDeviceHdl
For creating shader modules.
\param sourceLib
The source library class that stores the container of shader binary data.
*/
/***************************************************************************/
//void SHShaderModuleLibrary::ImportFromSourceLibrary(Handle<SHVkLogicalDevice>& logicalDeviceHdl, SHShaderSourceLibrary const& sourceLib) noexcept
//{
// auto const& sources = sourceLib.GetSourceLibrary();
// for (auto const& source : sources)
// {
// vk::ShaderStageFlagBits shaderType{};
// switch (source.shaderType)
// {
// case SH_SHADER_TYPE::VERTEX:
// shaderType = vk::ShaderStageFlagBits::eVertex;
// break;
// case SH_SHADER_TYPE::FRAGMENT:
// shaderType = vk::ShaderStageFlagBits::eFragment;
// break;
// case SH_SHADER_TYPE::COMPUTE:
// shaderType = vk::ShaderStageFlagBits::eCompute;
// break;
// default:
// shaderType = vk::ShaderStageFlagBits::eVertex;
// break;
// }
// Handle<SHVkShaderModule> newShaderModule = logicalDeviceHdl->CreateShaderModule(source.spirvBinary, "main", shaderType, source.name);
// shaderModules.emplace(source.id, newShaderModule);
// stringToID.emplace(source.name, source.id);
// }
//}
/***************************************************************************/
/*!
\brief
Gets the shader module based on module name.
\param shaderName
\return
*/
/***************************************************************************/
//Handle<SHVkShaderModule> SHShaderModuleLibrary::GetShaderModule(std::string shaderName) const noexcept
//{
// if (stringToID.contains(shaderName))
// return shaderModules.at(stringToID.at(shaderName));
// else
// return {};
//}
vk::ShaderStageFlagBits SHShaderModuleLibrary::GetVkShaderFlag(SH_SHADER_TYPE type) noexcept
{
vk::ShaderStageFlagBits shaderType{};
switch (type)
{
case SH_SHADER_TYPE::VERTEX:
shaderType = vk::ShaderStageFlagBits::eVertex;
break;
case SH_SHADER_TYPE::FRAGMENT:
shaderType = vk::ShaderStageFlagBits::eFragment;
break;
case SH_SHADER_TYPE::COMPUTE:
shaderType = vk::ShaderStageFlagBits::eCompute;
break;
default:
shaderType = vk::ShaderStageFlagBits::eVertex;
break;
}
return shaderType;
}
Handle<SHVkShaderModule> SHShaderModuleLibrary::GetBuiltInShaderModule(std::string shaderName) const noexcept
{
if (builtInShaderModules.contains(shaderName))
return builtInShaderModules.at(shaderName);
else
return {};
}
void SHShaderModuleLibrary::ImportAllShaderSource(Handle<SHVkLogicalDevice>& logicalDeviceHdl) noexcept
{
uint32_t idCounter{ 0 };
auto const data = SHAssetManager::GetAllDataOfType(AssetType::SHADER);
for (auto const& dataPtr : data)
{
auto const shader = dynamic_cast<SHShaderAsset const*>(dataPtr);
Handle<SHVkShaderModule> newShaderModule =
logicalDeviceHdl->CreateShaderModule(shader->spirvBinary, "main", GetVkShaderFlag(shader->shaderType), shader->name);
shaderModules.emplace(idCounter++, newShaderModule);
}
auto const builtIn = SHAssetManager::GetAllDataOfType(AssetType::SHADER_BUILT_IN);
for (auto const& dataPtr : builtIn)
{
auto const shader = dynamic_cast<SHShaderAsset const*>(dataPtr);
Handle<SHVkShaderModule> newShaderModule =
logicalDeviceHdl->CreateShaderModule(shader->spirvBinary, "main", GetVkShaderFlag(shader->shaderType), shader->name);
builtInShaderModules.emplace(shader->name, newShaderModule);
}
}
void SHShaderModuleLibrary::ReflectAllShaderModules() noexcept
{
for (auto& module : shaderModules)
{
module.second->Reflect();
}
for (auto& module : builtInShaderModules)
{
module.second->Reflect();
}
}
}

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@ -1,44 +0,0 @@
#ifndef SH_SHADER_MODULE_LIBRARY_H
#define SH_SHADER_MODULE_LIBRARY_H
#include "Graphics/Shaders/SHVkShaderModule.h"
#include "Assets/Asset Types/SHShaderAsset.h"
namespace SHADE
{
class SHVkLogicalDevice;
/*
* The purpose of this shader module library is to be separate from the source library. The source library contains
* pure shader binary data that contains no vulkan related objects. Every time we load on unload a scene/level,
* this class and the source library class is cleared of its modules and recreated.
*/
class SHShaderModuleLibrary
{
private:
/*-----------------------------------------------------------------------*/
/* PRIVATE MEMBER VARIABLES */
/*-----------------------------------------------------------------------*/
//! Stored shader modules
std::unordered_map<uint32_t, Handle<SHVkShaderModule>> shaderModules;
std::unordered_map<std::string, Handle<SHVkShaderModule>> builtInShaderModules;
inline vk::ShaderStageFlagBits GetVkShaderFlag(SH_SHADER_TYPE type) noexcept;
public:
/*-----------------------------------------------------------------------*/
/* PUBLIC MEMBER FUNCTIONS */
/*-----------------------------------------------------------------------*/
//void ImportFromSourceLibrary(Handle<SHVkLogicalDevice>& logicalDeviceHdl, SHShaderSourceLibrary const& sourceLib) noexcept;
/*-----------------------------------------------------------------------*/
/* SETTERS AND GETTERS */
/*-----------------------------------------------------------------------*/
Handle<SHVkShaderModule> GetBuiltInShaderModule(std::string shaderName) const noexcept;
void ImportAllShaderSource(Handle<SHVkLogicalDevice>& logicalDeviceHdl) noexcept;
void ReflectAllShaderModules() noexcept;
};
}
#endif

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@ -18,6 +18,7 @@
// Project Headers
#include "ECS_Base/Managers/SHSystemManager.h"
#include "Math/SHMathHelpers.h"
#include "Physics/SHPhysicsSystem.h"
namespace SHADE
@ -28,21 +29,9 @@ namespace SHADE
SHRigidBodyComponent::SHRigidBodyComponent() noexcept
: type { Type::DYNAMIC }
, flags { 0 }
, dirtyFlags { 0 }
, interpolate { true }
, rp3dBody { nullptr }
, mass { 1.0f }
, drag { 0.01f }
, angularDrag { 0.01f }
{
// Set default flags: Gravity & Sleeping enabled
flags |= 1U << 0;
flags |= 1U << 1;
// Set all dirty flags to true
dirtyFlags = 1023;
}
{}
/*-----------------------------------------------------------------------------------*/
/* Getter Function Definitions */
@ -50,12 +39,24 @@ namespace SHADE
bool SHRigidBodyComponent::IsGravityEnabled() const noexcept
{
return flags & (1U << 0);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
return rp3dBody->isGravityEnabled();
}
bool SHRigidBodyComponent::IsAllowedToSleep() const noexcept
{
return flags & (1U << 1);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
return rp3dBody->isAllowedToSleep();
}
bool SHRigidBodyComponent::IsInterpolating() const noexcept
@ -70,67 +71,151 @@ namespace SHADE
float SHRigidBodyComponent::GetMass() const noexcept
{
return mass;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return 0.0f;
}
return rp3dBody->getMass();
}
float SHRigidBodyComponent::GetDrag() const noexcept
{
return drag;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return 0.0f;
}
return rp3dBody->getLinearDamping();
}
float SHRigidBodyComponent::GetAngularDrag() const noexcept
{
return angularDrag;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return 0.0f;
}
return rp3dBody->getAngularDamping();
}
bool SHRigidBodyComponent::GetFreezePositionX() const noexcept
{
return flags & (1U << 2);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const auto& LINEAR_CONSTRAINTS = rp3dBody->getLinearLockAxisFactor();
return SHMath::CompareFloat(LINEAR_CONSTRAINTS.x, 0.0f);
}
bool SHRigidBodyComponent::GetFreezePositionY() const noexcept
{
return flags & (1U << 3);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const auto& LINEAR_CONSTRAINTS = rp3dBody->getLinearLockAxisFactor();
return SHMath::CompareFloat(LINEAR_CONSTRAINTS.y, 0.0f);
}
bool SHRigidBodyComponent::GetFreezePositionZ() const noexcept
{
return flags & (1U << 4);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const auto& LINEAR_CONSTRAINTS = rp3dBody->getLinearLockAxisFactor();
return SHMath::CompareFloat(LINEAR_CONSTRAINTS.z, 0.0f);
}
bool SHRigidBodyComponent::GetFreezeRotationX() const noexcept
{
return flags & (1U << 5);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const auto& ANGULAR_CONSTRAINTS = rp3dBody->getAngularLockAxisFactor();
return SHMath::CompareFloat(ANGULAR_CONSTRAINTS.x, 0.0f);
}
bool SHRigidBodyComponent::GetFreezeRotationY() const noexcept
{
return flags & (1U << 6);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const auto& ANGULAR_CONSTRAINTS = rp3dBody->getAngularLockAxisFactor();
return SHMath::CompareFloat(ANGULAR_CONSTRAINTS.y, 0.0f);
}
bool SHRigidBodyComponent::GetFreezeRotationZ() const noexcept
{
return flags & (1U << 7);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const SHVec3& SHRigidBodyComponent::GetForce() const noexcept
{
return force;
const auto& ANGULAR_CONSTRAINTS = rp3dBody->getAngularLockAxisFactor();
return SHMath::CompareFloat(ANGULAR_CONSTRAINTS.z, 0.0f);
}
const SHVec3& SHRigidBodyComponent::GetTorque() const noexcept
SHVec3 SHRigidBodyComponent::GetForce() const noexcept
{
return torque;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return false;
}
const SHVec3& SHRigidBodyComponent::GetLinearVelocity() const noexcept
{
return linearVelocity;
return rp3dBody->getForce();
}
const SHVec3& SHRigidBodyComponent::GetAngularVelocity() const noexcept
SHVec3 SHRigidBodyComponent::GetTorque() const noexcept
{
return angularVelocity;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return SHVec3::Zero;
}
return rp3dBody->getTorque();
}
SHVec3 SHRigidBodyComponent::GetLinearVelocity() const noexcept
{
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return SHVec3::Zero;
}
return rp3dBody->getLinearVelocity();
}
SHVec3 SHRigidBodyComponent::GetAngularVelocity() const noexcept
{
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return SHVec3::Zero;
}
return rp3dBody->getAngularVelocity();
}
const SHVec3& SHRigidBodyComponent::GetPosition() const noexcept
@ -157,8 +242,15 @@ namespace SHADE
if (type == newType)
return;
dirtyFlags |= 1U << 4;
type = newType;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setType(static_cast<rp3d::BodyType>(type));
}
void SHRigidBodyComponent::SetGravityEnabled(bool enableGravity) noexcept
@ -171,8 +263,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << FLAG_POS;
enableGravity ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->enableGravity(enableGravity);
}
void SHRigidBodyComponent::SetIsAllowedToSleep(bool isAllowedToSleep) noexcept
@ -185,92 +282,127 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 1;
isAllowedToSleep ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setIsAllowedToSleep(isAllowedToSleep);
}
void SHRigidBodyComponent::SetFreezePositionX(bool freezePositionX) noexcept
{
static constexpr int FLAG_POS = 2;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set linear constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 2;
freezePositionX ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto linearConstraints = rp3dBody->getLinearLockAxisFactor();
linearConstraints.x = freezePositionX ? 0.0f : 1.0f;
rp3dBody->setLinearLockAxisFactor(linearConstraints);
}
void SHRigidBodyComponent::SetFreezePositionY(bool freezePositionY) noexcept
{
static constexpr int FLAG_POS = 3;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set linear constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 2;
freezePositionY ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto linearConstraints = rp3dBody->getLinearLockAxisFactor();
linearConstraints.y = freezePositionY ? 0.0f : 1.0f;
rp3dBody->setLinearLockAxisFactor(linearConstraints);
}
void SHRigidBodyComponent::SetFreezePositionZ(bool freezePositionZ) noexcept
{
static constexpr int FLAG_POS = 4;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set linear constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 2;
freezePositionZ ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto linearConstraints = rp3dBody->getLinearLockAxisFactor();
linearConstraints.z = freezePositionZ ? 0.0f : 1.0f;
rp3dBody->setLinearLockAxisFactor(linearConstraints);
}
void SHRigidBodyComponent::SetFreezeRotationX(bool freezeRotationX) noexcept
{
static constexpr int FLAG_POS = 5;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set angular constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 3;
freezeRotationX ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto angularConstraints = rp3dBody->getAngularLockAxisFactor();
angularConstraints.x = freezeRotationX ? 0.0f : 1.0f;
rp3dBody->setAngularLockAxisFactor(angularConstraints);
}
void SHRigidBodyComponent::SetFreezeRotationY(bool freezeRotationY) noexcept
{
static constexpr int FLAG_POS = 6;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set angular constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 3;
freezeRotationY ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto angularConstraints = rp3dBody->getAngularLockAxisFactor();
angularConstraints.y = freezeRotationY ? 0.0f : 1.0f;
rp3dBody->setAngularLockAxisFactor(angularConstraints);
}
void SHRigidBodyComponent::SetFreezeRotationZ(bool freezeRotationZ) noexcept
{
static constexpr int FLAG_POS = 7;
if (type == Type::STATIC)
{
SHLOG_WARNING("Cannot set angular constraints of a static object {}", GetEID())
return;
}
dirtyFlags |= 1U << 3;
freezeRotationZ ? flags |= (1U << FLAG_POS) : flags &= ~(1U << FLAG_POS);
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
auto angularConstraints = rp3dBody->getAngularLockAxisFactor();
angularConstraints.z = freezeRotationZ ? 0.0f : 1.0f;
rp3dBody->setAngularLockAxisFactor(angularConstraints);
}
void SHRigidBodyComponent::SetInterpolate(bool allowInterpolation) noexcept
@ -286,8 +418,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 5;
mass = newMass;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setMass(newMass);
}
void SHRigidBodyComponent::SetDrag(float newDrag) noexcept
@ -298,8 +435,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 6;
drag = newDrag;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setLinearDamping(newDrag);
}
void SHRigidBodyComponent::SetAngularDrag(float newAngularDrag) noexcept
@ -310,8 +452,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 7;
angularDrag = newAngularDrag;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setLinearDamping(newAngularDrag);
}
void SHRigidBodyComponent::SetLinearVelocity(const SHVec3& newLinearVelocity) noexcept
@ -322,8 +469,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 8;
linearVelocity = newLinearVelocity;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setLinearVelocity(newLinearVelocity);
}
void SHRigidBodyComponent::SetAngularVelocity(const SHVec3& newAngularVelocity) noexcept
@ -334,8 +486,13 @@ namespace SHADE
return;
}
dirtyFlags |= 1U << 9;
angularVelocity = newAngularVelocity;
if (rp3dBody == nullptr)
{
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
rp3dBody->setAngularVelocity(newAngularVelocity);
}
/*-----------------------------------------------------------------------------------*/
@ -346,7 +503,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -357,7 +514,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -368,7 +525,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -379,7 +536,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -390,7 +547,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -401,7 +558,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -412,7 +569,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}
@ -423,7 +580,7 @@ namespace SHADE
{
if (rp3dBody == nullptr)
{
SHLOGV_ERROR("Entity {} is missing an rp3dBody!", GetEID())
SHLOG_ERROR("Missing rp3dBody from Entity {}", GetEID())
return;
}

View File

@ -94,10 +94,10 @@ namespace SHADE
[[nodiscard]] bool GetFreezeRotationY () const noexcept;
[[nodiscard]] bool GetFreezeRotationZ () const noexcept;
[[nodiscard]] const SHVec3& GetForce () const noexcept;
[[nodiscard]] const SHVec3& GetTorque () const noexcept;
[[nodiscard]] const SHVec3& GetLinearVelocity () const noexcept;
[[nodiscard]] const SHVec3& GetAngularVelocity () const noexcept;
[[nodiscard]] SHVec3 GetForce () const noexcept;
[[nodiscard]] SHVec3 GetTorque () const noexcept;
[[nodiscard]] SHVec3 GetLinearVelocity () const noexcept;
[[nodiscard]] SHVec3 GetAngularVelocity () const noexcept;
[[nodiscard]] const SHVec3& GetPosition () const noexcept;
[[nodiscard]] const SHQuaternion& GetOrientation () const noexcept;
@ -150,25 +150,10 @@ namespace SHADE
static constexpr size_t NUM_DIRTY_FLAGS = 16;
Type type;
// rX rY rZ pX pY pZ slp g
uint8_t flags;
// 0 0 0 0 0 0 aV lV aD d m t ag lc slp g
uint16_t dirtyFlags;
bool interpolate;
reactphysics3d::RigidBody* rp3dBody;
float mass;
float drag;
float angularDrag;
SHVec3 force;
SHVec3 linearVelocity;
SHVec3 torque;
SHVec3 angularVelocity;
SHVec3 position;
SHQuaternion orientation;

View File

@ -168,100 +168,6 @@ namespace SHADE
rp3dBody->removeCollider(collider);
}
void SHPhysicsObject::SyncRigidBody(SHRigidBodyComponent* rb) const noexcept
{
SHASSERT(rp3dBody != nullptr, "ReactPhysics body does not exist!")
auto* rigidBody = reinterpret_cast<rp3d::RigidBody*>(rp3dBody);
if (rb->dirtyFlags != 0)
{
const uint16_t RB_FLAGS = rb->dirtyFlags;
for (size_t i = 0; i < SHRigidBodyComponent::NUM_DIRTY_FLAGS; ++i)
{
// Check if current dirty flag has been set to true
if (RB_FLAGS & 1U << i)
{
switch (i)
{
case 0: // Gravity
{
rigidBody->enableGravity(rb->IsGravityEnabled());
break;
}
case 1: // Sleeping
{
rigidBody->setIsAllowedToSleep(rb->IsAllowedToSleep());
break;
}
case 2: // Linear Constraints
{
const rp3d::Vector3 CONSTRAINTS
{
rb->flags & 1U << 2 ? 0.0f : 1.0f,
rb->flags & 1U << 3 ? 0.0f : 1.0f,
rb->flags & 1U << 4 ? 0.0f : 1.0f
};
rigidBody->setLinearLockAxisFactor(CONSTRAINTS);
break;
}
case 3: // Angular Constraints
{
const rp3d::Vector3 CONSTRAINTS
{
rb->flags & 1U << 5 ? 0.0f : 1.0f,
rb->flags & 1U << 6 ? 0.0f : 1.0f,
rb->flags & 1U << 7 ? 0.0f : 1.0f
};
rigidBody->setAngularLockAxisFactor(CONSTRAINTS);
break;
}
case 4: // Type
{
rigidBody->setType(static_cast<rp3d::BodyType>(rb->GetType()));
break;
}
case 5: // Mass
{
rigidBody->setMass(rb->GetMass());
break;
}
case 6: // Drag
{
rigidBody->setLinearDamping(rb->GetDrag());
break;
}
case 7: // Angular Drag
{
rigidBody->setAngularDamping(rb->GetAngularDrag());
break;
}
case 8: // Linear Velocity
{
rigidBody->setLinearVelocity(rb->GetLinearVelocity());
break;
}
case 9: // Angular Velocity
{
rigidBody->setAngularVelocity(rb->GetAngularVelocity());
break;
}
default: break;
}
}
}
rb->dirtyFlags = 0;
}
else
{
rb->linearVelocity = rigidBody->getLinearVelocity();
rb->angularVelocity = rigidBody->getAngularVelocity();
}
}
void SHPhysicsObject::SyncColliders(SHColliderComponent* c) const noexcept
{
int index = 0;

View File

@ -72,7 +72,6 @@ namespace SHADE
int AddCollider (SHCollider* collider);
void RemoveCollider (int index);
void SyncRigidBody (SHRigidBodyComponent* rb) const noexcept;
void SyncColliders (SHColliderComponent* c) const noexcept;
private:

View File

@ -19,8 +19,9 @@
#include "ECS_Base/Managers/SHSystemManager.h"
#include "Editor/SHEditor.h"
#include "Math/SHMathHelpers.h"
#include "Scene/SHSceneManager.h"
#include "Math/Transform/SHTransformComponent.h"
#include "Scene/SHSceneManager.h"
#include "Scripting/SHScriptEngine.h"
namespace SHADE
{
@ -304,8 +305,6 @@ namespace SHADE
if (!COMPONENT_ACTIVE)
continue;
physicsObject.SyncRigidBody(rigidBodyComponent);
}
// Sync colliders
@ -325,37 +324,56 @@ namespace SHADE
void SHPhysicsSystem::PhysicsFixedUpdate::Execute(double dt) noexcept
{
auto* system = reinterpret_cast<SHPhysicsSystem*>(GetSystem());
fixedTimeStep = 1.0 / system->fixedDT;
auto* physicsSystem = reinterpret_cast<SHPhysicsSystem*>(GetSystem());
auto scriptSys = SHSystemManager::GetSystem<SHScriptEngine>();
if (!scriptSys)
{
SHLOG_WARNING("[SHPhysicsSystem] Unable to invoke FixedUpdate() on scripts due to missing SHScriptEngine!");
}
fixedTimeStep = 1.0 / physicsSystem->fixedDT;
accumulatedTime += dt;
int count = 0;
while (accumulatedTime > fixedTimeStep)
{
system->world->update(static_cast<rp3d::decimal>(fixedTimeStep));
if (scriptSys)
{
scriptSys->ExecuteFixedUpdates();
}
physicsSystem->world->update(static_cast<rp3d::decimal>(fixedTimeStep));
accumulatedTime -= fixedTimeStep;
++count;
}
stats.numSteps = count;
system->worldUpdated = count > 0;
physicsSystem->worldUpdated = count > 0;
system->interpolationFactor = accumulatedTime / fixedTimeStep;
physicsSystem->interpolationFactor = accumulatedTime / fixedTimeStep;
}
void SHPhysicsSystem::PhysicsPostUpdate::Execute(double) noexcept
{
auto* system = reinterpret_cast<SHPhysicsSystem*>(GetSystem());
auto* physicsSystem = reinterpret_cast<SHPhysicsSystem*>(GetSystem());
// Interpolate transforms for rendering
if (system->worldUpdated)
if (physicsSystem->worldUpdated)
{
system->SyncTransforms();
physicsSystem->SyncTransforms();
// TODO(Kah Wei): Take Collision & Trigger messages here
// Collision & Trigger messages
auto scriptSys = SHSystemManager::GetSystem<SHScriptEngine>();
if (scriptSys)
{
scriptSys->ExecuteCollisionFunctions();
}
else
{
SHLOG_WARNING("[SHPhysicsSystem] Unable to invoke collision and trigger script events due to missing SHScriptEngine!");
}
system->ClearInvalidCollisions();
physicsSystem->ClearInvalidCollisions();
}
}
@ -612,10 +630,17 @@ namespace SHADE
auto* rigidBodyComponent = SHComponentManager::GetComponent_s<SHRigidBodyComponent>(ENTITY_ID);
auto* colliderComponent = SHComponentManager::GetComponent_s<SHColliderComponent>(ENTITY_ID);
SHASSERT(physicsObject != nullptr, "Physics object has been lost from the world!")
SHASSERT(physicsObject != nullptr, "Physics object " + std::to_string(ENTITY_ID) + " has been lost from the world!")
if (REMOVED_ID == RIGID_BODY_ID)
{
// Wake up all physics objects
for (auto& [entityID, object] : map)
{
if (SHComponentManager::HasComponent<SHRigidBodyComponent>(entityID))
reinterpret_cast<rp3d::RigidBody*>(object.rp3dBody)->setIsSleeping(false);
}
world->destroyRigidBody(reinterpret_cast<rp3d::RigidBody*>(physicsObject->rp3dBody));
physicsObject->rp3dBody = nullptr;
@ -630,13 +655,6 @@ namespace SHADE
for (auto& collider : colliderComponent->colliders)
physicsObject->AddCollider(&collider);
}
// Wake up all physics objects
for (auto& [entityID, object] : map)
{
if (SHComponentManager::HasComponent<SHRigidBodyComponent>(entityID))
reinterpret_cast<rp3d::RigidBody*>(object.rp3dBody)->setIsSleeping(false);
}
}
if (REMOVED_ID == COLLIDER_ID)

View File

@ -28,11 +28,6 @@
namespace SHADE
{
/*-----------------------------------------------------------------------------------*/
/* Concepts */
/*-----------------------------------------------------------------------------------*/
/*-----------------------------------------------------------------------------------*/
/* Type Definitions */

View File

@ -42,6 +42,9 @@ namespace SHADE
SHCollisionEvent cInfo;
// Update collision state
cInfo.collisionState = static_cast<SHCollisionEvent::State>(cp.getEventType());
// Match body and collider for collision event
const rp3d::Entity body1 = cp.getBody1()->getEntity();
const rp3d::Entity body2 = cp.getBody2()->getEntity();
@ -76,9 +79,6 @@ namespace SHADE
return cInfo;
}
// Update collision state
cInfo.collisionState = static_cast<SHCollisionEvent::State>(cp.getEventType());
return cInfo;
}
} // namespace SHADE

View File

@ -0,0 +1,65 @@
/************************************************************************************//*!
\file SHPhysicsSystemInterface.cpp
\author Tng Kah Wei, kahwei.tng, 390009620
\par email: kahwei.tng\@digipen.edu
\date Oct 31, 2022
\brief Contains the definitions of the functions of the static
SHPhysicsSystemInterface class.
Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
// Precompiled Headers
#include "SHpch.h"
// Primary Header
#include "SHPhysicsSystemInterface.h"
// Project Includes
#include "ECS_Base/Managers/SHSystemManager.h"
#include "Physics/SHPhysicsSystem.h"
#include "Physics/SHPhysicsUtils.h"
namespace SHADE
{
/*-----------------------------------------------------------------------------------*/
/* Static Usage Functions */
/*-----------------------------------------------------------------------------------*/
const std::vector<SHCollisionEvent>& SHPhysicsSystemInterface::GetCollisionInfo() noexcept
{
static std::vector<SHCollisionEvent> emptyVec;
auto phySystem = SHSystemManager::GetSystem<SHPhysicsSystem>();
if (phySystem)
{
return phySystem->GetCollisionInfo();
}
SHLOG_WARNING("[SHPhysicsSystemInterface] Failed to get collision events. Empty vector returned instead.");
return emptyVec;
}
const std::vector<SHCollisionEvent>& SHPhysicsSystemInterface::GetTriggerInfo() noexcept
{
static std::vector<SHCollisionEvent> emptyVec;
auto phySystem = SHSystemManager::GetSystem<SHPhysicsSystem>();
if (phySystem)
{
return phySystem->GetTriggerInfo();
}
SHLOG_WARNING("[SHPhysicsSystemInterface] Failed to get trigger events. Empty vector returned instead.");
return emptyVec;
}
double SHPhysicsSystemInterface::GetFixedDT() noexcept
{
auto phySystem = SHSystemManager::GetSystem<SHPhysicsSystem>();
if (phySystem)
{
return phySystem->GetFixedDT();
}
SHLOG_WARNING("[SHPhysicsSystemInterface] Failed to get fixed delta time. 0.0 returned instead.");
return 0.0;
}
}

View File

@ -0,0 +1,46 @@
/************************************************************************************//*!
\file SHPhysicsSystemInterface.h
\author Tng Kah Wei, kahwei.tng, 390009620
\par email: kahwei.tng\@digipen.edu
\date Oct 31, 2022
\brief Contains the definition of the SHGraphicsSystemInterface static class.
Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
#pragma once
// STL Includes
#include <vector>
namespace SHADE
{
/*-----------------------------------------------------------------------------------*/
/* Forward Declarations */
/*-----------------------------------------------------------------------------------*/
class SHCollisionEvent;
/*-----------------------------------------------------------------------------------*/
/* Type Definitions */
/*-----------------------------------------------------------------------------------*/
/// <summary>
/// Static class that wraps up certain functions in the SHPhysicsSystem so that
/// accessing it from SHADE_Managed would not cause issues due to C++20 features.
/// </summary>
class SH_API SHPhysicsSystemInterface final
{
public:
/*---------------------------------------------------------------------------------*/
/* Constructor */
/*---------------------------------------------------------------------------------*/
SHPhysicsSystemInterface() = delete;
/*---------------------------------------------------------------------------------*/
/* Static Usage Functions */
/*---------------------------------------------------------------------------------*/
[[nodiscard]] static const std::vector<SHCollisionEvent>& GetCollisionInfo() noexcept;
[[nodiscard]] static const std::vector<SHCollisionEvent>& GetTriggerInfo() noexcept;
[[nodiscard]] static double GetFixedDT() noexcept;
};
}

View File

@ -17,9 +17,45 @@ of DigiPen Institute of Technology is prohibited.
#include "SH_API.h"
#include "SHResourceLibrary.h"
#include "Assets/SHAssetMacros.h"
#include "Assets/Asset Types/SHMeshAsset.h"
#include "Assets/Asset Types/SHTextureAsset.h"
#include "Assets/Asset Types/SHShaderAsset.h"
#include "Graphics/Shaders/SHVkShaderModule.h"
#include "Graphics/MiddleEnd/Textures/SHTextureLibrary.h"
#include "Graphics/MiddleEnd/Interface/SHMeshLibrary.h"
#include "Graphics/MiddleEnd/Interface/SHMaterial.h"
#include "Assets/Asset Types/SHMaterialAsset.h"
namespace SHADE
{
template<typename T = void>
struct SHResourceLoader
{
using AssetType = void;
};
template<>
struct SHResourceLoader<SHMesh>
{
using AssetType = SHMeshAsset;
};
template<>
struct SHResourceLoader<SHTexture>
{
using AssetType = SHTextureAsset;
};
template<>
struct SHResourceLoader<SHVkShaderModule>
{
using AssetType = SHShaderAsset;
};
template<>
struct SHResourceLoader<SHMaterial>
{
using AssetType = SHMaterialAsset;
};
/// <summary>
/// Static class responsible for loading and caching runtime resources from their
/// serialised Asset IDs.
@ -124,6 +160,14 @@ namespace SHADE
/// <returns>Reference to the AssetHandleMap of the specified type.</returns>
template<typename ResourceType>
static std::pair<AssetHandleMapRef, HandleAssetMapRef> getAssetHandleMap();
/// <summary>
///
/// </summary>
/// <typeparam name="ResourceType"></typeparam>
/// <param name="assetData"></param>
/// <returns></returns>
template<typename ResourceType>
static Handle<ResourceType> load(AssetID assetId, const typename SHResourceLoader<ResourceType>::AssetType& assetData);
};
}

View File

@ -13,12 +13,17 @@ of DigiPen Institute of Technology is prohibited.
#pragma once
// Primary Include
#include "SHResourceManager.h"
// External Dependencies
#include <yaml-cpp/yaml.h>
// Project Includes
#include "Assets/SHAssetManager.h"
#include "Assets/Asset Types/SHAssetIncludes.h"
#include "Graphics/MiddleEnd/Interface/SHGraphicsSystem.h"
#include "ECS_Base/Managers/SHSystemManager.h"
#include "Tools/SHLog.h"
#include "Graphics/Shaders/SHVkShaderModule.h"
#include "Graphics/Devices/SHVkLogicalDevice.h"
#include "Graphics/MiddleEnd/Materials/SHMaterialSpec.h"
namespace SHADE
{
@ -40,67 +45,19 @@ namespace SHADE
return Handle<ResourceType>(typedHandleMap.get()[assetId]);
/* Otherwise, we need to load it! */
// Meshes
if constexpr (std::is_same_v<ResourceType, SHMesh>)
{
// Get system
SHGraphicsSystem* gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (gfxSystem == nullptr)
throw std::runtime_error("[SHResourceManager] Attempted to load graphics resource without a SHGraphicsSystem installed.");
// Load
const SHMeshAsset* assetData = SHAssetManager::GetData<SHMeshAsset>(assetId);
// Load Asset Data
const auto* assetData = SHAssetManager::GetData<SHResourceLoader<ResourceType>::AssetType>(assetId);
if (assetData == nullptr)
{
SHLog::Warning("[SHResourceManager] Attempted to load an asset with an invalid Asset ID.");
return {};
}
loadedAssetData.emplace_back(assetId);
Handle<SHMesh> meshHandle = gfxSystem->AddMesh
(
assetData->vertexPosition.size(),
assetData->vertexPosition.data(),
assetData->texCoords.data(),
assetData->vertexTangent.data(),
assetData->vertexNormal.data(),
assetData->indices.size(),
assetData->indices.data()
);
Handle genericHandle = Handle(meshHandle);
auto handle = load<ResourceType>(assetId, *assetData);
Handle genericHandle = Handle();
typedHandleMap.get().emplace(assetId, genericHandle);
typedAssetIdMap.get().emplace(genericHandle, assetId);
return meshHandle;
}
// Textures
else if constexpr (std::is_same_v<ResourceType, SHTexture>)
{
// Get system
SHGraphicsSystem* gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (gfxSystem == nullptr)
throw std::runtime_error("[SHResourceManager] Attempted to load graphics resource without a SHGraphicsSystem installed.");
// Load
const SHTextureAsset* assetData = SHAssetManager::GetData<SHTextureAsset>(assetId);
if (assetData == nullptr)
{
SHLog::Warning("[SHResourceManager] Attempted to load an asset with an invalid Asset ID.");
return {};
}
loadedAssetData.emplace_back(assetId);
Handle<SHTexture> texHandle = gfxSystem->AddTexture
(
assetData->numBytes,
assetData->pixelData,
assetData->width,
assetData->height,
assetData->format,
assetData->mipOffsets
);
typedHandleMap.get().emplace(assetId, Handle(texHandle));
return texHandle;
}
return handle;
}
template<typename ResourceType>
@ -169,4 +126,129 @@ namespace SHADE
}
return std::make_pair(std::ref(handlesMap[TYPE]), std::ref(assetIdMap[TYPE]));
}
template<typename ResourceType>
Handle<ResourceType> SHResourceManager::load(AssetID assetId, const typename SHResourceLoader<ResourceType>::AssetType& assetData)
{
// Get system
SHGraphicsSystem* gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (gfxSystem == nullptr)
throw std::runtime_error("[SHResourceManager] Attempted to load graphics resource without a SHGraphicsSystem installed.");
// Meshes
if constexpr (std::is_same_v<ResourceType, SHMesh>)
{
loadedAssetData.emplace_back(assetId);
return gfxSystem->AddMesh
(
assetData.vertexPosition.size(),
assetData.vertexPosition.data(),
assetData.texCoords.data(),
assetData.vertexTangent.data(),
assetData.vertexNormal.data(),
assetData.indices.size(),
assetData.indices.data()
);
}
// Textures
else if constexpr (std::is_same_v<ResourceType, SHTexture>)
{
loadedAssetData.emplace_back(assetId);
return gfxSystem->AddTexture
(
assetData.numBytes,
assetData.pixelData,
assetData.width,
assetData.height,
assetData.format,
assetData.mipOffsets
);
}
// Shaders
else if constexpr (std::is_same_v<ResourceType, SHVkShaderModule>)
{
auto shader = gfxSystem->GetDevice()->CreateShaderModule
(
assetData.spirvBinary,
"main",
static_cast<vk::ShaderStageFlagBits>(assetData.shaderType),
assetData.name
);
shader->Reflect();
return shader;
}
// Materials
else if constexpr (std::is_same_v<ResourceType, SHMaterial>)
{
// Get the data we need to construct
SHMaterialSpec matSpec = YAML::Node(assetData.data).as<SHMaterialSpec>();
// Load shaders
auto vertexShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(matSpec.vertexShader);
auto fragShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(matSpec.fragShader);
// Ensure that both shaders are present
if (!(vertexShader && fragShader))
{
SHLOG_ERROR("[SHResourceManager] Failed to load material as shaders failed to be loaded.");
return {};
}
// Grab subpass from worldRenderer
auto renderPass = gfxSystem->GetPrimaryRenderpass();
if (!renderPass)
{
SHLOG_ERROR("[SHResourceManager] Failed to load material as RenderPass could not be found.");
return {};
}
auto subPass = renderPass->GetSubpass(matSpec.subpassName);
if (!subPass)
{
SHLOG_ERROR("[SHResourceManager] Failed to load material as SubPass could not be found.");
return {};
}
// Create material
auto matHandle = gfxSystem->AddMaterial(vertexShader, fragShader, subPass);
// Set properties for the material
Handle<SHShaderBlockInterface> pipelineProperties = matHandle->GetShaderBlockInterface();
for (int i = 0; i < static_cast<int>(pipelineProperties->GetVariableCount()); ++i)
{
const std::string& PROP_NAME = pipelineProperties->GetVariableName(i);
const auto& PROP_NODE = matSpec.properties;
if (PROP_NODE)
{
const std::string& VAR_NAME = pipelineProperties->GetVariableName(i);
const SHShaderBlockInterface::Variable* VARIABLE = pipelineProperties->GetVariable(i);
switch (VARIABLE->type)
{
case SHADE::SHShaderBlockInterface::Variable::Type::FLOAT:
matHandle->SetProperty(VARIABLE->offset, PROP_NODE.as<float>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::INT:
matHandle->SetProperty(VARIABLE->offset, PROP_NODE.as<int>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR2:
matHandle->SetProperty(VARIABLE->offset, PROP_NODE.as<SHVec2>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR3:
matHandle->SetProperty(VARIABLE->offset, PROP_NODE.as<SHVec3>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR4:
matHandle->SetProperty(VARIABLE->offset, PROP_NODE.as<SHVec4>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::OTHER:
default:
continue;
break;
}
}
}
return matHandle;
}
}
}

View File

@ -80,7 +80,10 @@ namespace SHADE
{
csScriptsExecuteFixedUpdate();
}
void SHScriptEngine::ExecuteCollisionFunctions()
{
csScriptsExecutePhysicsEvents();
}
void SHScriptEngine::Exit()
{
// Do not allow deinitialization if not initialised
@ -377,6 +380,12 @@ namespace SHADE
DEFAULT_CSHARP_NAMESPACE + ".ScriptStore",
"ExecuteLateUpdate"
);
csScriptsExecutePhysicsEvents = dotNet.GetFunctionPtr<CsFuncPtr>
(
DEFAULT_CSHARP_LIB_NAME,
DEFAULT_CSHARP_NAMESPACE + ".ScriptStore",
"ExecuteCollisionFunctions"
);
csScriptsFrameCleanUp = dotNet.GetFunctionPtr<CsFuncPtr>
(
DEFAULT_CSHARP_LIB_NAME,

View File

@ -98,6 +98,11 @@ namespace SHADE
/// </summary>
void ExecuteFixedUpdates();
/// <summary>
/// Executes the OnCollision*()s and OnTrigger*()s of the Scripts that are attached
/// to Entities.
/// </summary>
void ExecuteCollisionFunctions();
/// <summary>
/// Shuts down the DotNetRuntime.
/// </summary>
void Exit() override;
@ -245,6 +250,7 @@ namespace SHADE
CsFuncPtr csScriptsExecuteFixedUpdate = nullptr;
CsFuncPtr csScriptsExecuteUpdate = nullptr;
CsFuncPtr csScriptsExecuteLateUpdate = nullptr;
CsFuncPtr csScriptsExecutePhysicsEvents = nullptr;
CsFuncPtr csScriptsFrameCleanUp = nullptr;
CsScriptManipFuncPtr csScriptsAdd = nullptr;
CsScriptBasicFuncPtr csScriptsRemoveAll = nullptr;

View File

@ -12,8 +12,11 @@
#include "Resource/SHResourceManager.h"
#include "Graphics/MiddleEnd/Interface/SHRenderable.h"
#include "Graphics/MiddleEnd/Interface/SHMaterial.h"
#include "Graphics/MiddleEnd/Interface/SHMaterialInstance.h"
#include "SHSerializationTools.h"
#include "Physics/Components/SHColliderComponent.h"
#include "Graphics/MiddleEnd/Materials/SHMaterialSpec.h"
#include "Tools/SHLog.h"
namespace YAML
{
@ -303,102 +306,43 @@ namespace YAML
// Write Material
YAML::Node node;
node[VERT_SHADER_YAML_TAG.data()] = 0; // SHResourceManager::GetAssetID<SHVkShaderModule>(vertexShader).value_or(0);
node[FRAG_SHADER_YAML_TAG.data()] = 0; // SHResourceManager::GetAssetID<SHVkShaderModule>(fragShader).value_or(0);
node[VERT_SHADER_YAML_TAG.data()] = SHResourceManager::GetAssetID<SHVkShaderModule>(vertexShader).value_or(0);
node[FRAG_SHADER_YAML_TAG.data()] = SHResourceManager::GetAssetID<SHVkShaderModule>(fragShader).value_or(0);
node[SUBPASS_YAML_TAG.data()] = rhs.GetPipeline()->GetPipelineState().GetSubpass()->GetName();
node[PROPS_YAML_TAG.data()] = propertiesNode;
return node;
}
static bool decode(YAML::Node const& node, SHMaterial& rhs)
};
template<>
struct convert<SHMaterialSpec>
{
static constexpr std::string_view VERT_SHADER_YAML_TAG = "VertexShader";
static constexpr std::string_view FRAG_SHADER_YAML_TAG = "FragmentShader";
static constexpr std::string_view SUBPASS_YAML_TAG = "SubPass";
static constexpr std::string_view PROPS_YAML_TAG = "Properties";
static bool decode(YAML::Node const& node, SHMaterialSpec& rhs)
{
/*
// Retrieve Shader Asset IDs
AssetID vertShaderId = 0;
AssetID fragShaderId = 0;
if (node[VERT_SHADER_YAML_TAG.data()])
vertShaderId = node[VERT_SHADER_YAML_TAG.data()].as<AssetID>();
if (node[FRAG_SHADER_YAML_TAG.data()])
fragShaderId = node[FRAG_SHADER_YAML_TAG.data()].as<AssetID>();
// Ensure that both shaders are present
if (vertShaderId == 0 || fragShaderId == 0)
return false; // No pipeline
// Get Shader Modules
Handle<SHVkShaderModule> vertexShader, fragShader;
vertexShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(vertShaderId);
fragShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(fragShaderId);
// Get Pipeline Library
if (node[SUBPASS_YAML_TAG.data()])
{
auto gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSystem)
if (!node[VERT_SHADER_YAML_TAG.data()])
return false;
// Grab subpass from worldRenderer
auto renderPass = gfxSystem->GetPrimaryRenderpass();
if (!renderPass)
rhs.vertexShader = node[VERT_SHADER_YAML_TAG.data()].as<AssetID>();
if (!node[FRAG_SHADER_YAML_TAG.data()])
return false;
auto subPass = renderPass->GetSubpass(node[SUBPASS_YAML_TAG.data()].as<std::string>());
if (!subPass)
rhs.fragShader = node[FRAG_SHADER_YAML_TAG.data()].as<AssetID>();
// Retrieve Subpass
if (!node[SUBPASS_YAML_TAG.data()])
return false;
rhs.subpassName = node[SUBPASS_YAML_TAG.data()].as<std::string>();
// Set Pipeline
rhs.SetPipeline(renderPass->GetOrCreatePipeline
(
std::make_pair(vertexShader, fragShader),
subPass
));
}
*/
// TODO: Load Proper Material!
// Set default material
auto gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSystem)
// Retrieve
if (!node[PROPS_YAML_TAG.data()])
return false;
rhs.SetPipeline(gfxSystem->GetDefaultMaterial()->GetPipeline());
rhs.properties = node[PROPS_YAML_TAG.data()];
if (node[PROPS_YAML_TAG.data()].IsDefined())
{
// Loop through all properties
Handle<SHShaderBlockInterface> pipelineProperties = rhs.GetShaderBlockInterface();
const YAML::Node& PROPS_NODE = node[PROPS_YAML_TAG.data()];
for (int i = 0; i < static_cast<int>(pipelineProperties->GetVariableCount()); ++i)
{
const std::string& PROP_NAME = pipelineProperties->GetVariableName(i);
const auto& PROP_NODE = PROPS_NODE[PROP_NAME.data()];
if (PROP_NODE)
{
const std::string& VAR_NAME = pipelineProperties->GetVariableName(i);
const SHShaderBlockInterface::Variable* VARIABLE = pipelineProperties->GetVariable(i);
switch (VARIABLE->type)
{
case SHADE::SHShaderBlockInterface::Variable::Type::FLOAT:
rhs.SetProperty(VARIABLE->offset, PROP_NODE.as<float>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::INT:
rhs.SetProperty(VARIABLE->offset, PROP_NODE.as<int>());
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR2:
rhs.SetProperty(VARIABLE->offset, SHSerializationTools::YAMLToVec2(PROP_NODE));
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR3:
rhs.SetProperty(VARIABLE->offset, SHSerializationTools::YAMLToVec3(PROP_NODE));
break;
case SHADE::SHShaderBlockInterface::Variable::Type::VECTOR4:
rhs.SetProperty(VARIABLE->offset, SHSerializationTools::YAMLToVec4(PROP_NODE));
break;
case SHADE::SHShaderBlockInterface::Variable::Type::OTHER:
default:
continue;
break;
}
}
}
}
return true;
}
};
@ -413,7 +357,7 @@ namespace YAML
{
YAML::Node node;
node[MESH_YAML_TAG.data()] = SHResourceManager::GetAssetID<SHMesh>(rhs.GetMesh()).value_or(0);
node[MAT_YAML_TAG.data()] = 0; // TODO: Asset ID
node[MAT_YAML_TAG.data()] = SHResourceManager::GetAssetID<SHMaterial>(rhs.GetMaterial()->GetBaseMaterial()).value_or(0);
return node;
}
static bool decode(YAML::Node const& node, SHRenderable& rhs)
@ -424,12 +368,17 @@ namespace YAML
}
if (node[MAT_YAML_TAG.data()].IsDefined())
{
// TODO: Convert Asset ID To Material HAndle
// Temporarily, use default material
auto gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSystem)
return false;
rhs.SetMaterial(gfxSystem->AddOrGetBaseMaterialInstance(gfxSystem->GetDefaultMaterial()));
Handle<SHMaterial> baseMat = SHResourceManager::LoadOrGet<SHMaterial>(node[MAT_YAML_TAG.data()].as<AssetID>());
if (!baseMat)
{
baseMat = gfxSystem->GetDefaultMaterial();
SHLog::Warning("[SHSerializationHelper] Unable to load specified material. Falling back to default material.");
}
rhs.SetMaterial(gfxSystem->AddOrGetBaseMaterialInstance(baseMat));
}
return true;
}

View File

@ -14,6 +14,9 @@ of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
// Precompiled Headers
#include "SHpch.h"
// External Dependencies
#include "FRC/SHFramerateController.h"
#include "Physics/SHPhysicsSystemInterface.h"
// Primary Header
#include "Time.hxx"
@ -31,5 +34,8 @@ namespace SHADE
float Time::DeltaTimeF::get()
{
return static_cast<float>(SHFrameRateController::GetRawDeltaTime());
double Time::FixedDeltaTime::get()
{
return SHPhysicsSystemInterface::GetFixedDT();
}
}

View File

@ -14,8 +14,6 @@ of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
#pragma once
#include "FRC/SHFramerateController.h"
namespace SHADE
{
/// <summary>
@ -29,18 +27,27 @@ namespace SHADE
/*-----------------------------------------------------------------------------*/
/// <summary>
/// Time taken to process the previous frame.
/// Note, is affected by TimeScale. Use UnscaledDeltaTime if you wish to retrieve
/// real world time. This is also affected by MaxDeltaTime clamping that
/// UnscaledDeltaTime is subject to.
/// </summary>
static property double DeltaTime
{
double get();
}
/*-----------------------------------------------------------------------------*/
/* Properties */
/*-----------------------------------------------------------------------------*/
/// <summary>
/// Time taken to process the previous frame.
/// </summary>
static property float DeltaTimeF
{
float get();
/// <summary>
/// Time taken for Physics simulations. You should use this for operations
/// within Script.FixedUpdate()
/// </summary>
static property double FixedDeltaTime
{
double get();
}
};
}

View File

@ -31,9 +31,158 @@ namespace SHADE
/// <summary>
/// Represents the available supported keycodes that can be passed into the
/// key-based Input functions.
///
/// Attempting to follow https://docs.unity3d.com/ScriptReference/KeyCode.html
/// Win32 keycodes are shift-insensitive, i.e. 'A' and 'a' are the same keycode and '1' and '!' are the same keycode
/// </summary>
enum class KeyCode : int
{
Backspace = static_cast<int>(SHInputManager::SH_KEYCODE::BACKSPACE),
Delete = static_cast<int>(SHInputManager::SH_KEYCODE::DEL),
Tab = static_cast<int>(SHInputManager::SH_KEYCODE::TAB),
Clear = static_cast<int>(SHInputManager::SH_KEYCODE::CLEAR),
Return = static_cast<int>(SHInputManager::SH_KEYCODE::ENTER),
Pause = static_cast<int>(SHInputManager::SH_KEYCODE::PAUSE),
Escape = static_cast<int>(SHInputManager::SH_KEYCODE::ESCAPE),
Space = static_cast<int>(SHInputManager::SH_KEYCODE::SPACE),
Keypad0 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_0),
Keypad1 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_1),
Keypad2 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_2),
Keypad3 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_3),
Keypad4 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_4),
Keypad5 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_5),
Keypad6 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_6),
Keypad7 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_7),
Keypad8 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_8),
Keypad9 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMPAD_9),
KeypadPeriod = static_cast<int>(SHInputManager::SH_KEYCODE::DECIMAL),
KeypadDivide = static_cast<int>(SHInputManager::SH_KEYCODE::DIVIDE),
KeypadMultiply = static_cast<int>(SHInputManager::SH_KEYCODE::MULTIPLY),
KeypadMinus = static_cast<int>(SHInputManager::SH_KEYCODE::SUBTRACT),
KeypadPlus = static_cast<int>(SHInputManager::SH_KEYCODE::ADD),
KeypadEnter = static_cast<int>(SHInputManager::SH_KEYCODE::ENTER),
//KeypadEquals
UpArrow = static_cast<int>(SHInputManager::SH_KEYCODE::UP_ARROW),
DownArrow = static_cast<int>(SHInputManager::SH_KEYCODE::DOWN_ARROW),
RightArrow = static_cast<int>(SHInputManager::SH_KEYCODE::RIGHT_ARROW),
LeftArrow = static_cast<int>(SHInputManager::SH_KEYCODE::LEFT_ARROW),
Insert = static_cast<int>(SHInputManager::SH_KEYCODE::INSERT),
Home = static_cast<int>(SHInputManager::SH_KEYCODE::HOME),
End = static_cast<int>(SHInputManager::SH_KEYCODE::END),
PageUp = static_cast<int>(SHInputManager::SH_KEYCODE::PAGE_UP),
PageDown = static_cast<int>(SHInputManager::SH_KEYCODE::PAGE_DOWN),
F1 = static_cast<int>(SHInputManager::SH_KEYCODE::F1),
F2 = static_cast<int>(SHInputManager::SH_KEYCODE::F2),
F3 = static_cast<int>(SHInputManager::SH_KEYCODE::F3),
F4 = static_cast<int>(SHInputManager::SH_KEYCODE::F4),
F5 = static_cast<int>(SHInputManager::SH_KEYCODE::F5),
F6 = static_cast<int>(SHInputManager::SH_KEYCODE::F6),
F7 = static_cast<int>(SHInputManager::SH_KEYCODE::F7),
F8 = static_cast<int>(SHInputManager::SH_KEYCODE::F8),
F9 = static_cast<int>(SHInputManager::SH_KEYCODE::F9),
F10 = static_cast<int>(SHInputManager::SH_KEYCODE::F10),
F11 = static_cast<int>(SHInputManager::SH_KEYCODE::F11),
F12 = static_cast<int>(SHInputManager::SH_KEYCODE::F12),
F13 = static_cast<int>(SHInputManager::SH_KEYCODE::F13),
F14 = static_cast<int>(SHInputManager::SH_KEYCODE::F14),
F15 = static_cast<int>(SHInputManager::SH_KEYCODE::F15),
F16 = static_cast<int>(SHInputManager::SH_KEYCODE::F16),
F17 = static_cast<int>(SHInputManager::SH_KEYCODE::F17),
F18 = static_cast<int>(SHInputManager::SH_KEYCODE::F18),
F19 = static_cast<int>(SHInputManager::SH_KEYCODE::F19),
F20 = static_cast<int>(SHInputManager::SH_KEYCODE::F20),
F21 = static_cast<int>(SHInputManager::SH_KEYCODE::F21),
F22 = static_cast<int>(SHInputManager::SH_KEYCODE::F22),
F23 = static_cast<int>(SHInputManager::SH_KEYCODE::F23),
F24 = static_cast<int>(SHInputManager::SH_KEYCODE::F24),
Alpha0 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_0),
Alpha1 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_1),
Alpha2 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_2),
Alpha3 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_3),
Alpha4 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_4),
Alpha5 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_5),
Alpha6 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_6),
Alpha7 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_7),
Alpha8 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_8),
Alpha9 = static_cast<int>(SHInputManager::SH_KEYCODE::NUMBER_9),
//Exclaim
//DoubleQuote
//Hash
//Dollar
//Percent
//Ampersand
Quote = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_7),
//LeftParen
//RightParen
//Asterisk
//Plus
Comma = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_COMMA),
Minus = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_MINUS),
Period = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_PERIOD),
Slash = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_2),
//Colon
Semicolon = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_1),
//Less
Equals = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_PLUS),
//Greater
//Question
//At
LeftBracket = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_4),
Backslash = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_5),
RightBracket = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_6),
//Caret
//Underscore
BackQuote = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_3),
A = static_cast<int>(SHInputManager::SH_KEYCODE::A),
B = static_cast<int>(SHInputManager::SH_KEYCODE::B),
C = static_cast<int>(SHInputManager::SH_KEYCODE::C),
D = static_cast<int>(SHInputManager::SH_KEYCODE::D),
E = static_cast<int>(SHInputManager::SH_KEYCODE::E),
F = static_cast<int>(SHInputManager::SH_KEYCODE::F),
G = static_cast<int>(SHInputManager::SH_KEYCODE::G),
H = static_cast<int>(SHInputManager::SH_KEYCODE::H),
I = static_cast<int>(SHInputManager::SH_KEYCODE::I),
J = static_cast<int>(SHInputManager::SH_KEYCODE::J),
K = static_cast<int>(SHInputManager::SH_KEYCODE::K),
L = static_cast<int>(SHInputManager::SH_KEYCODE::L),
M = static_cast<int>(SHInputManager::SH_KEYCODE::M),
N = static_cast<int>(SHInputManager::SH_KEYCODE::N),
O = static_cast<int>(SHInputManager::SH_KEYCODE::O),
P = static_cast<int>(SHInputManager::SH_KEYCODE::P),
Q = static_cast<int>(SHInputManager::SH_KEYCODE::Q),
R = static_cast<int>(SHInputManager::SH_KEYCODE::R),
S = static_cast<int>(SHInputManager::SH_KEYCODE::S),
T = static_cast<int>(SHInputManager::SH_KEYCODE::T),
U = static_cast<int>(SHInputManager::SH_KEYCODE::U),
V = static_cast<int>(SHInputManager::SH_KEYCODE::V),
W = static_cast<int>(SHInputManager::SH_KEYCODE::W),
X = static_cast<int>(SHInputManager::SH_KEYCODE::X),
Y = static_cast<int>(SHInputManager::SH_KEYCODE::Y),
Z = static_cast<int>(SHInputManager::SH_KEYCODE::Z),
//LeftCurlyBracket
//Pipe
//RightCurlyBracket
//Tilde
NumLock = static_cast<int>(SHInputManager::SH_KEYCODE::NUM_LOCK),
CapsLock = static_cast<int>(SHInputManager::SH_KEYCODE::CAPS_LOCK),
ScrollLock = static_cast<int>(SHInputManager::SH_KEYCODE::SCROLL_LOCK),
RightShift = static_cast<int>(SHInputManager::SH_KEYCODE::RIGHT_SHIFT),
LeftShift = static_cast<int>(SHInputManager::SH_KEYCODE::LEFT_SHIFT),
RightControl = static_cast<int>(SHInputManager::SH_KEYCODE::RIGHT_CTRL),
LeftControl = static_cast<int>(SHInputManager::SH_KEYCODE::LEFT_CTRL),
RightAlt = static_cast<int>(SHInputManager::SH_KEYCODE::RIGHT_ALT),
LeftAlt = static_cast<int>(SHInputManager::SH_KEYCODE::LEFT_ALT),
LeftWindows = static_cast<int>(SHInputManager::SH_KEYCODE::LEFT_WINDOWS),
RightWindows = static_cast<int>(SHInputManager::SH_KEYCODE::RIGHT_WINDOWS),
//AltGr
Help = static_cast<int>(SHInputManager::SH_KEYCODE::HELP),
Print = static_cast<int>(SHInputManager::SH_KEYCODE::PRINT),
SysReq = static_cast<int>(SHInputManager::SH_KEYCODE::PRINT_SCREEN),
//Break
//Menu
//Mouse buttons use mouse codes, which are enums declared later
//TODO Controller input
#if 0
Space = static_cast<int>(SHInputManager::SH_KEYCODE::SPACE),
//Apostrophe = static_cast<int>(SHInputManager::SH_KEYCODE::APOSTROPHE),
Comma = static_cast<int>(SHInputManager::SH_KEYCODE::OEM_COMMA),
@ -191,6 +340,7 @@ namespace SHADE
JoystickButton7 = JoystickMenu,
JoystickButton8 = JoystickLeftStick,
JoystickButton9 = JoystickRightStick
#endif
};
/// <summary>

View File

@ -236,6 +236,22 @@ namespace SHADE
lhs.y * rhs.y
);
}
Vector2 Vector2::operator*(Vector2 lhs, double rhs)
{
return Vector2
(
lhs.x * static_cast<float>(rhs),
lhs.y * static_cast<float>(rhs)
);
}
Vector2 Vector2::operator/(Vector2 lhs, double rhs)
{
return Vector2
(
lhs.x / static_cast<float>(rhs),
lhs.y / static_cast<float>(rhs)
);
}
Vector2 Vector2::operator*(Vector2 lhs, float rhs)
{
return Vector2

View File

@ -361,6 +361,22 @@ namespace SHADE
/// <param name="lhs">Vector2 to multiply with.</param>
/// <param name="rhs">Scalar to multiply with.</param>
/// <returns>The result of the scalar multiplication.</returns>
static Vector2 operator*(Vector2 lhs, double rhs);
/// <summary>
/// Calculates the division of a Vector2 with a scalar value and returns
/// the result.
/// </summary>
/// <param name="lhs">Scalar to divide with.</param>
/// <param name="rhs">Vector2 to divide with.</param>
/// <returns>The result of the scalar division.</returns>
static Vector2 operator/(Vector2 lhs, double rhs);
/// <summary>
/// Calculates the multiplication of a Vector2 with a scalar value and returns
/// the result.
/// </summary>
/// <param name="lhs">Vector2 to multiply with.</param>
/// <param name="rhs">Scalar to multiply with.</param>
/// <returns>The result of the scalar multiplication.</returns>
static Vector2 operator*(Vector2 lhs, float rhs);
/// <summary>
/// Calculates the division of a Vector2 with a scalar value and returns

View File

@ -237,6 +237,24 @@ namespace SHADE
lhs.z * rhs.z
);
}
Vector3 Vector3::operator*(Vector3 lhs, double rhs)
{
return Vector3
(
lhs.x * static_cast<float>(rhs),
lhs.y * static_cast<float>(rhs),
lhs.z * static_cast<float>(rhs)
);
}
Vector3 Vector3::operator/(Vector3 lhs, double rhs)
{
return Vector3
(
lhs.x / static_cast<float>(rhs),
lhs.y / static_cast<float>(rhs),
lhs.z / static_cast<float>(rhs)
);
}
Vector3 Vector3::operator*(Vector3 lhs, float rhs)
{
return Vector3

View File

@ -375,6 +375,22 @@ namespace SHADE
/// <param name="lhs">Vector3 to multiply with.</param>
/// <param name="rhs">Scalar to multiply with.</param>
/// <returns>The result of the scalar multiplication.</returns>
static Vector3 operator*(Vector3 lhs, double rhs);
/// <summary>
/// Calculates the division of a Vector3 with a scalar value and returns
/// the result.
/// </summary>
/// <param name="lhs">Scalar to divide with.</param>
/// <param name="rhs">Vector3 to divide with.</param>
/// <returns>The result of the scalar division.</returns>
static Vector3 operator/(Vector3 lhs, double rhs);
/// <summary>
/// Calculates the multiplication of a Vector3 with a scalar value and returns
/// the result.
/// </summary>
/// <param name="lhs">Vector3 to multiply with.</param>
/// <param name="rhs">Scalar to multiply with.</param>
/// <returns>The result of the scalar multiplication.</returns>
static Vector3 operator*(Vector3 lhs, float rhs);
/// <summary>
/// Calculates the division of a Vector3 with a scalar value and returns

View File

@ -0,0 +1,36 @@
/************************************************************************************//*!
\file CollisionInfo.cxx
\author Tng Kah Wei, kahwei.tng, 390009620
\par email: kahwei.tng\@digipen.edu
\date Oct 31, 2022
\brief Contains the definition of the functions of the managed CollisionInfo
struct.
Note: This file is written in C++17/CLI.
Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
#include "SHpch.h"
#include "CollisionInfo.hxx"
#include "Components/RigidBody.hxx"
#include "Components/Collider.hxx"
namespace SHADE
{
Collider^ CollisionInfo::Collider::get()
{
return GameObject.GetComponent<SHADE::Collider^>();
}
CollisionShape^ CollisionInfo::CollisionShape::get()
{
throw gcnew System::NotImplementedException();
}
RigidBody^ CollisionInfo::RigidBody::get()
{
return GameObject.GetComponent<SHADE::RigidBody^>();
}
}

View File

@ -0,0 +1,66 @@
/************************************************************************************//*!
\file CollisionInfo.hxx
\author Tng Kah Wei, kahwei.tng, 390009620
\par email: kahwei.tng\@digipen.edu
\date Oct 31, 2022
\brief Contains the definition of the managed CollisionInfo struct with the
definition of its properties and declaration of functions.
Note: This file is written in C++17/CLI.
Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
#pragma once
// Project Includes
#include "Engine/GameObject.hxx"
namespace SHADE
{
/*---------------------------------------------------------------------------------*/
/* Forward Declarations */
/*---------------------------------------------------------------------------------*/
ref class RigidBody;
ref class Collider;
ref class CollisionShape;
/*---------------------------------------------------------------------------------*/
/* Type Definitions */
/*---------------------------------------------------------------------------------*/
/// <summary>
/// Struct that describes a collision
/// </summary>
public value struct CollisionInfo
{
public:
/*-----------------------------------------------------------------------------*/
/* Properties */
/*-----------------------------------------------------------------------------*/
/// <summary>
/// The GameObject whose collider you are colliding with.
/// </summary>
property GameObject GameObject;
/// <summary>
/// The Collider that you are colliding with.
/// </summary>
property Collider^ Collider
{
SHADE::Collider^ get();
}
/// <summary>
/// The CollisionShape of the Collider that you are colliding with.
/// </summary>
property CollisionShape^ CollisionShape
{
SHADE::CollisionShape^ get();
}
/// <summary>
/// The RigidBody that you are colliding with.
/// </summary>
property RigidBody^ RigidBody
{
SHADE::RigidBody^ get();
}
};
}

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@ -147,6 +147,48 @@ namespace SHADE
SAFE_NATIVE_CALL_END(this)
}
void Script::OnCollisionEnter(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onCollisionEnter(collision);
SAFE_NATIVE_CALL_END(this)
}
void Script::OnCollisionStay(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onCollisionStay(collision);
SAFE_NATIVE_CALL_END(this)
}
void Script::OnCollisionExit(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onCollisionExit(collision);
SAFE_NATIVE_CALL_END(this)
}
void Script::OnTriggerEnter(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onTriggerEnter(collision);
SAFE_NATIVE_CALL_END(this)
}
void Script::OnTriggerStay(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onTriggerStay(collision);
SAFE_NATIVE_CALL_END(this)
}
void Script::OnTriggerExit(CollisionInfo collision)
{
SAFE_NATIVE_CALL_BEGIN
onTriggerExit(collision);
SAFE_NATIVE_CALL_END(this)
}
/*---------------------------------------------------------------------------------*/
/* Constructors */
/*---------------------------------------------------------------------------------*/
@ -169,4 +211,14 @@ namespace SHADE
void Script::update() {}
void Script::lateUpdate() {}
void Script::onDestroy() {}
}// namespace PlushieAPI
/*---------------------------------------------------------------------------------*/
/* Virtual Event Functions */
/*---------------------------------------------------------------------------------*/
void Script::onTriggerEnter(CollisionInfo) {}
void Script::onTriggerStay(CollisionInfo) {}
void Script::onTriggerExit(CollisionInfo) {}
void Script::onCollisionEnter(CollisionInfo) {}
void Script::onCollisionStay(CollisionInfo) {}
void Script::onCollisionExit(CollisionInfo) {}
}

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@ -15,6 +15,7 @@ of DigiPen Institute of Technology is prohibited.
// Project Includes
#include "Engine/GameObject.hxx"
#include "Physics/CollisionInfo.hxx"
namespace SHADE
{
@ -213,6 +214,46 @@ namespace SHADE
/// </summary>
void OnDestroy();
/*-----------------------------------------------------------------------------*/
/* Event Functions */
/*-----------------------------------------------------------------------------*/
/// <summary>
/// Used to call onCollisionEnter(). This should be called when a collision is
/// detected between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnCollisionEnter(CollisionInfo collision);
/// <summary>
/// Used to call onCollisionStay(). This should be called when a collision is
/// persistent between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnCollisionStay(CollisionInfo collision);
/// <summary>
/// Used to call onCollisionExit(). This should be called when a collision ends
/// between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnCollisionExit(CollisionInfo collision);
/// <summary>
/// Used to call onTriggerEnter(). This should be called when a trigger-type
/// collision is detected between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnTriggerEnter(CollisionInfo collision);
/// <summary>
/// Used to call onTriggerStay(). This should be called when a trigger-type
/// collision is detected between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnTriggerStay(CollisionInfo collision);
/// <summary>
/// Used to call onTriggerExit(). This should be called when a trigger-type
/// collision is detected between the attached GameObject and another GameObject.
/// </summary>
/// <param name="collision">Information on the collision event.</param>
void OnTriggerExit(CollisionInfo collision);
protected:
/*-----------------------------------------------------------------------------*/
/* Constructors */
@ -273,6 +314,46 @@ namespace SHADE
/// </summary>
virtual void onDestroy();
/*-----------------------------------------------------------------------------*/
/* Virtual Event Functions */
/*-----------------------------------------------------------------------------*/
/// <summary>
/// Called when the attached GameObject has a trigger Collider and collides with
/// another GameObject with a Collider in the first frame of collision.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onTriggerEnter(CollisionInfo info);
/// <summary>
/// Called when the attached GameObject has a trigger Collider and collides with
/// another GameObject with a Collider in subsequent frames of collision.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onTriggerStay(CollisionInfo info);
/// <summary>
/// Called when the attached GameObject has a trigger Collider and leaves a
/// collision with another GameObject with a Collider2D.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onTriggerExit(CollisionInfo info);
/// <summary>
/// Called when the attached GameObject has a Collider and collides with
/// another GameObject with a Collider in the first frame of collision.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onCollisionEnter(CollisionInfo info);
/// <summary>
/// Called when the attached GameObject has a Collider and collides with
/// another GameObject with a Collider in subsequent frames of collision.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onCollisionStay(CollisionInfo info);
/// <summary>
/// Called when the attached GameObject has a Collider and leaves a
/// collision with another GameObject with a Collider2D.
/// </summary>
/// <param name="info">Information on the collision event.</param>
virtual void onCollisionExit(CollisionInfo info);
private:
/*-----------------------------------------------------------------------------*/
/* Data Members */
@ -280,4 +361,4 @@ namespace SHADE
GameObject owner;
};
} // namespace PlushieAPI
}

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@ -28,6 +28,8 @@ of DigiPen Institute of Technology is prohibited.
#include "Engine/Entity.hxx"
#include "Serialisation/ReflectionUtilities.hxx"
#include "Engine/Application.hxx"
#include "Physics/SHPhysicsSystemInterface.h"
#include "Physics/SHPhysicsUtils.h"
namespace SHADE
{
@ -71,7 +73,7 @@ namespace SHADE
SAFE_NATIVE_CALL_BEGIN
Script^ script;
return AddScriptViaNameWithRef(entity, scriptName, script);
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
return false;
}
@ -301,7 +303,7 @@ namespace SHADE
removeScript(script);
}
scriptList->Clear();
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::RemoveAllScriptsImmediately(Entity entity, bool callOnDestroy)
{
@ -326,7 +328,7 @@ namespace SHADE
startList.Remove(script);
}
scriptList->Clear();
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
/*---------------------------------------------------------------------------------*/
@ -365,7 +367,7 @@ namespace SHADE
startList.AddRange(%inactiveStartList);
inactiveStartList.Clear();
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::FrameCleanUp()
{
@ -386,7 +388,7 @@ namespace SHADE
scripts.Remove(entity);
}
}
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::Exit()
{
@ -410,7 +412,7 @@ namespace SHADE
startList.Clear();
disposalQueue.Clear();
scriptTypeList = nullptr;
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
/*---------------------------------------------------------------------------------*/
@ -439,7 +441,7 @@ namespace SHADE
script->FixedUpdate();
}
}
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::ExecuteUpdate()
{
@ -456,7 +458,7 @@ namespace SHADE
script->Update();
}
}
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::ExecuteLateUpdate()
{
@ -473,7 +475,95 @@ namespace SHADE
script->LateUpdate();
}
}
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
void ScriptStore::ExecuteCollisionFunctions()
{
SAFE_NATIVE_CALL_BEGIN
/* Collisions */
const auto& collisions = SHPhysicsSystemInterface::GetCollisionInfo();
for (const auto& collisionInfo : collisions)
{
auto entities =
{
std::make_pair(collisionInfo.GetEntityA(), collisionInfo.GetEntityB()),
std::make_pair(collisionInfo.GetEntityB(), collisionInfo.GetEntityA())
};
for (auto entity : entities)
{
// Don't bother if this object has no scripts or is inactive
if (!isEntityActive(entity.first) || !scripts.ContainsKey(entity.first))
continue;
// Construct the collision state object
CollisionInfo info;
info.GameObject = GameObject(entity.second);
// Call all of the script's functions
auto entityScripts = scripts[entity.first];
if (entityScripts->Count > 0)
{
for each (Script ^ script in entityScripts)
{
switch (collisionInfo.GetCollisionState())
{
case SHCollisionEvent::State::ENTER:
script->OnCollisionEnter(info);
break;
case SHCollisionEvent::State::STAY:
script->OnCollisionStay(info);
break;
case SHCollisionEvent::State::EXIT:
script->OnCollisionExit(info);
break;
}
}
}
}
}
/* Triggers */
const auto& triggers = SHPhysicsSystemInterface::GetTriggerInfo();
for (const auto& triggerInfo : triggers)
{
auto entities =
{
std::make_pair(triggerInfo.GetEntityA(), triggerInfo.GetEntityB()),
std::make_pair(triggerInfo.GetEntityB(), triggerInfo.GetEntityA())
};
for (auto entity : entities)
{
// Don't bother if this object has no scripts or is inactive
if (!isEntityActive(entity.first) || !scripts.ContainsKey(entity.first))
continue;
// Construct the collision state object
CollisionInfo info;
info.GameObject = GameObject(entity.second);
// Call all of the script's functions
auto entityScripts = scripts[entity.first];
if (entityScripts->Count > 0)
{
for each (Script ^ script in entityScripts)
{
switch (triggerInfo.GetCollisionState())
{
case SHCollisionEvent::State::ENTER:
script->OnTriggerEnter(info);
break;
case SHCollisionEvent::State::STAY:
script->OnTriggerStay(info);
break;
case SHCollisionEvent::State::EXIT:
script->OnTriggerExit(info);
break;
}
}
}
}
}
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
}
bool ScriptStore::SerialiseScripts(Entity entity, System::IntPtr yamlNodePtr)
@ -509,7 +599,7 @@ namespace SHADE
}
return true;
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
return false;
}
@ -559,7 +649,7 @@ namespace SHADE
}
return true;
SAFE_NATIVE_CALL_END_N("SHADE.ScriptStore")
SAFE_NATIVE_CALL_END_N("SHADE_Managed.ScriptStore")
return false;
}

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@ -233,6 +233,10 @@ namespace SHADE
/// Executes LateUpdate() for all scripts.
/// </summary>
static void ExecuteLateUpdate();
/// <summary>
/// Executes OnCollision*() and OnTrigger*() for all scripts.
/// </summary>
static void ExecuteCollisionFunctions();
/*-----------------------------------------------------------------------------*/
/* Serialisation Functions */

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@ -40,4 +40,34 @@ public class PhysicsTest : Script
}
Debug.Log($"{Transform.LocalPosition.y}");
}
protected override void fixedUpdate()
{
Debug.Log("Fixed Update");
}
protected override void onCollisionEnter(CollisionInfo info)
{
Debug.Log($"Collision Enter: {info.GameObject.Name}");
}
protected override void onCollisionStay(CollisionInfo info)
{
Debug.Log($"Collision Stay: {info.GameObject.Name}");
}
protected override void onCollisionExit(CollisionInfo info)
{
Debug.Log($"Collision Exit: {info.GameObject.Name}");
}
protected override void onTriggerEnter(CollisionInfo info)
{
Debug.Log($"Trigger Enter: {info.GameObject.Name}");
}
protected override void onTriggerStay(CollisionInfo info)
{
Debug.Log($"Trigger Stay: {info.GameObject.Name}");
}
protected override void onTriggerExit(CollisionInfo info)
{
Debug.Log($"Trigger Exit: {info.GameObject.Name}");
}
}