// // BtPhysTest // // Copyright: (c) 2009-2013 Benjamin "Touky" Huet // (c) 2012-2013 Sam Hocevar // #if defined HAVE_CONFIG_H # include "config.h" #endif #if defined _XBOX # define _USE_MATH_DEFINES /* for M_PI */ # include # undef near /* Fuck Microsoft */ # undef far /* Fuck Microsoft again */ #elif defined _WIN32 # define _USE_MATH_DEFINES /* for M_PI */ # define WIN32_LEAN_AND_MEAN # include # undef near /* Fuck Microsoft */ # undef far /* Fuck Microsoft again */ #else # include #endif #include "core.h" #include "loldebug.h" using namespace lol; #ifndef HAVE_PHYS_USE_BULLET #define HAVE_PHYS_USE_BULLET #endif /* HAVE_PHYS_USE_BULLET */ #include "Physics/Include/LolPhysics.h" #include "Physics/Include/EasyPhysics.h" #include "PhysicObject.h" #include "BtPhysTest.h" using namespace lol::phys; #define CUBE_HALF_EXTENTS .5f #define EXTRA_HEIGHT 1.f int gNumObjects = 64; #define USE_WALL 1 #define USE_PLATFORM 1 #define USE_ROPE 0 #define USE_BODIES 1 #define USE_ROTATION 0 #define USE_CHARACTER 1 #define USE_STAIRS 1 #define IPT_MOVE_FORWARD "Move_Forward" #define IPT_MOVE_BACKWARD "Move_Backward" #define IPT_MOVE_LEFT "Move_Left" #define IPT_MOVE_RIGHT "Move_Right" #define IPT_MOVE_UP "Move_Up" #define IPT_MOVE_DOWN "Move_Down" #define IPT_MOVE_JUMP "Move_Jump" BtPhysTest::BtPhysTest(bool editor) { m_loop_value = .0f; /* Create a camera that matches the settings of XNA BtPhysTest */ m_camera = new Camera(vec3(0.f, 600.f, 0.f), vec3(0.f, 0.f, 0.f), vec3(0, 1, 0)); m_camera->SetRotation(quat::fromeuler_xyz(0.f, 0.f, 0.f)); m_camera->SetPerspective(45.f, 1280.f, 960.f, .1f, 1000.f); //m_camera->SetOrtho(1280.f / 6, 960.f / 6, -1000.f, 1000.f); Ticker::Ref(m_camera); m_ready = false; m_simulation = new Simulation(); m_simulation->SetWorldLimit(vec3(-1000.0f, -1000.0f, -1000.0f), vec3(1000.0f, 1000.0f, 1000.0f)); m_simulation->Init(); vec3 NewGravity = vec3(.0f, -10.0f, .0f); m_simulation->SetGravity(NewGravity); m_simulation->SetContinuousDetection(true); m_simulation->SetTimestep(1.f / 120.f); Ticker::Ref(m_simulation); float offset = 29.5f; vec3 pos_offset = vec3(.0f, 30.f, .0f); if (USE_STAIRS) { vec3 new_offset = vec3(1.0f, .125f, .0f); quat NewRotation = quat::fromeuler_xyz(0.f, 0.f, 0.f); vec3 NewPosition = pos_offset + vec3(5.0f, -29.f, 15.0f); { NewRotation = quat::fromeuler_xyz(0.f, 0.f, 30.f); NewPosition += vec3(4.0f, .0f, -4.0f); PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 3); Ticker::Ref(NewPhyobj); m_stairs_list << NewPhyobj; } { NewRotation = quat::fromeuler_xyz(0.f, 0.f, 40.f); NewPosition += vec3(4.0f, .0f, -4.0f); PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 3); Ticker::Ref(NewPhyobj); m_stairs_list << NewPhyobj; } NewPosition = pos_offset + vec3(5.0f, -29.5f, 15.0f); NewRotation = quat::fromeuler_xyz(0.f, 0.f, 0.f); for (int i=0; i < 15; i++) { NewPosition += new_offset; PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 3); Ticker::Ref(NewPhyobj); m_stairs_list << NewPhyobj; } } if (USE_WALL) { for (int i=0; i < 6; i++) { vec3 NewPosition = vec3(.0f); quat NewRotation = quat(1.f); PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation); int idx = i/2; NewPosition = pos_offset; NewPosition[idx] += offset; offset *= -1.f; if (idx != 1) { vec3 NewAxis = vec3(.0f); NewAxis[2 - idx] = 1; NewRotation = quat::rotate(90.f, NewAxis); } NewPhyobj->SetTransform(NewPosition, NewRotation); Ticker::Ref(NewPhyobj); m_ground_list << NewPhyobj; } } PhysicsObject* BasePhyobj = NULL; if (USE_PLATFORM) { quat NewRotation = quat::fromeuler_xyz(0.f, 0.f, 0.f); vec3 NewPosition = pos_offset + vec3(5.0f, -25.0f, -15.0f); PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 1); m_platform_list << NewPhyobj; Ticker::Ref(NewPhyobj); NewPosition = pos_offset + vec3(-15.0f, -25.0f, 5.0f); NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 1); BasePhyobj = NewPhyobj; m_platform_list << NewPhyobj; Ticker::Ref(NewPhyobj); NewRotation = quat::fromeuler_xyz(0.f, 0.f, 90.f); NewPosition = pos_offset + vec3(-20.0f, -25.0f, 5.0f); NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 1); NewPhyobj->GetPhysic()->AttachTo(BasePhyobj->GetPhysic(), true, true); m_platform_list << NewPhyobj; Ticker::Ref(NewPhyobj); //NewPosition += vec3(-0.0f, .0f, .0f); //NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 1); //NewPhyobj->GetPhysic()->AttachTo(BasePhyobj->GetPhysic(), true, false); //m_platform_list << NewPhyobj; //Ticker::Ref(NewPhyobj); //NewPosition += vec3(-2.0f, .0f, .0f); //NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 1); //NewPhyobj->GetPhysic()->AttachTo(BasePhyobj->GetPhysic(), false, false); //m_platform_list << NewPhyobj; //Ticker::Ref(NewPhyobj); } if (USE_CHARACTER) { quat NewRotation = quat::fromeuler_xyz(0.f, 0.f, 0.f); vec3 NewPosition = pos_offset + vec3(-5.0f, -10.0f, 15.0f); PhysicsObject* NewPhyobj = new PhysicsObject(m_simulation, NewPosition, NewRotation, 2); m_character_list << NewPhyobj; Ticker::Ref(NewPhyobj); Input::LinkActionToKey(IPT_MOVE_FORWARD, Key::Up); Input::LinkActionToKey(IPT_MOVE_BACKWARD, Key::Down); Input::LinkActionToKey(IPT_MOVE_LEFT, Key::Left); Input::LinkActionToKey(IPT_MOVE_RIGHT, Key::Right); Input::LinkActionToKey(IPT_MOVE_JUMP, Key::Space); Input::LinkActionToKey(IPT_MOVE_UP, Key::PageUp); Input::LinkActionToKey(IPT_MOVE_DOWN, Key::PageDown); //NewPhyobj->GetCharacter()->AttachTo(BasePhyobj->GetPhysic(), true, true); } if (USE_BODIES) { for (int x=0; x < 6; x++) { for (int y=0; y < 6; y++) { for (int z=0; z < 5; z++) { PhysicsObject* new_physobj = new PhysicsObject(m_simulation, 1000.f, vec3(-20.f, 15.f, -20.f) + vec3(8.f * (float)x, 8.f * (float)y, 8.f * (float)z)); m_physobj_list << new_physobj; Ticker::Ref(new_physobj); } } } } if (USE_ROPE) { Array RopeElements; for (int i = 0; i < 14; i++) { PhysicsObject* new_physobj = new PhysicsObject(m_simulation, 1000.f, vec3(0.f, 15.f, -20.f) + vec3(0.f, 0.f, 2.f * (float)i), 1); RopeElements << new_physobj; m_physobj_list << new_physobj; Ticker::Ref(new_physobj); if (RopeElements.Count() > 1) { EasyConstraint* new_constraint = new EasyConstraint(); vec3 A2B = .5f * (RopeElements[i]->GetPhysic()->GetTransform().v3.xyz - RopeElements[i - 1]->GetPhysic()->GetTransform().v3.xyz); new_constraint->SetPhysObjA(RopeElements[i - 1]->GetPhysic(), lol::mat4::translate(A2B)); new_constraint->SetPhysObjB(RopeElements[i]->GetPhysic(), lol::mat4::translate(-A2B)); new_constraint->InitConstraintToPoint2Point(); new_constraint->DisableCollisionBetweenObjs(true); new_constraint->AddToSimulation(m_simulation); m_constraint_list << new_constraint; } } } } void BtPhysTest::TickGame(float seconds) { WorldEntity::TickGame(seconds); if (Input::WasReleased(Key::Escape)) Ticker::Shutdown(); m_loop_value += seconds; if (m_loop_value > M_PI * 2.0f) m_loop_value -= M_PI * 2.0f; vec3 GroundBarycenter = vec3(.0f); vec3 PhysObjBarycenter = vec3(.0f); float factor = .0f; if (USE_WALL) { for (int i = 0; i < m_ground_list.Count(); i++) { PhysicsObject* PhysObj = m_ground_list[i]; mat4 GroundMat = PhysObj->GetTransform(); GroundBarycenter += GroundMat.v3.xyz; factor += 1.f; } GroundBarycenter /= factor; for (int i = 0; i < m_ground_list.Count(); i++) { PhysicsObject* PhysObj = m_ground_list[i]; mat4 GroundMat = PhysObj->GetTransform(); vec3 CenterToGround = GroundMat.v3.xyz - GroundBarycenter; vec3 CenterToCam = m_camera->m_position - GroundBarycenter; if (dot(normalize(CenterToCam - CenterToGround), normalize(CenterToGround)) > 0.f) PhysObj->SetRender(false); else PhysObj->SetRender(true); } } if (USE_ROTATION) { for (int i = 0; i < m_ground_list.Count(); i++) { PhysicsObject* PhysObj = m_ground_list[i]; mat4 GroundMat = PhysObj->GetTransform(); mat4 CenterMx = mat4::translate(GroundBarycenter); GroundMat = inverse(CenterMx) * GroundMat; GroundMat = CenterMx * mat4(quat::fromeuler_xyz(vec3(.0f, 20.f, 20.0f) * seconds)) * GroundMat; PhysObj->SetTransform(GroundMat.v3.xyz, quat(GroundMat)); } } if (USE_PLATFORM) { for (int i = 0; i < m_platform_list.Count(); i++) { PhysicsObject* PhysObj = m_platform_list[i]; mat4 GroundMat = PhysObj->GetTransform(); if (i == 0) { GroundMat = GroundMat * mat4(quat::fromeuler_xyz(vec3(20.f, .0f, .0f) * seconds)); PhysObj->SetTransform(GroundMat.v3.xyz, quat(GroundMat)); } else if (i == 1) { GroundMat = mat4::translate(vec3(-15.0f, 5.0f, lol::cos(m_loop_value) * 8.f)) * mat4(quat::fromeuler_xyz(vec3(.0f, lol::cos(m_loop_value) * 20.f, .0f))); PhysObj->SetTransform(GroundMat.v3.xyz, quat(GroundMat)); } } } if (USE_CHARACTER) { for (int i = 0; i < m_character_list.Count(); i++) { PhysicsObject* PhysObj = m_character_list[i]; EasyCharacterController* Character = (EasyCharacterController*)PhysObj->GetCharacter(); mat4 CtlrMx = Character->GetTransform(); int HMovement = Input::GetStatus(IPT_MOVE_RIGHT) - Input::GetStatus(IPT_MOVE_LEFT); int VMovement = Input::GetStatus(IPT_MOVE_FORWARD) - Input::GetStatus(IPT_MOVE_BACKWARD); int RMovement = Input::GetStatus(IPT_MOVE_UP) - Input::GetStatus(IPT_MOVE_DOWN); vec3 CharMove = vec3((float)VMovement * seconds * 4.f, (float)RMovement * seconds * 10.f, (float)HMovement * seconds * 4.f); if (Input::WasReleased(IPT_MOVE_JUMP)) Character->Jump(); Character->SetMovementForFrame(CharMove); RayCastResult HitResult; if (m_simulation->RayHits(HitResult, ERT_Closest, Character->GetTransform().v3.xyz, (Character->GetTransform().v3.xyz + vec3(.0f, -1.f, .0f)), Character)) Character->AttachTo(HitResult.m_collider_list[0], true, true); else Character->AttachTo(NULL); } } if (USE_CHARACTER) { PhysObjBarycenter = vec3(.0f); factor = .0f; for (int i = 0; i < m_character_list.Count(); i++) { PhysicsObject* PhysObj = m_character_list[i]; mat4 GroundMat = PhysObj->GetTransform(); PhysObjBarycenter += GroundMat.v3.xyz; factor += 1.f; } PhysObjBarycenter /= factor; m_camera->SetTarget(m_camera->GetTarget() + (seconds / (seconds + 0.18f)) * (PhysObjBarycenter - m_camera->GetTarget())); vec3 CamPosCenter = m_camera->GetTarget() + vec3(.0f, 5.0f, .0f); m_camera->SetPosition(CamPosCenter + normalize(m_camera->GetPosition() - CamPosCenter) * 20.0f); } else { PhysObjBarycenter = vec3(.0f); for (int i = 0; i < m_physobj_list.Count(); i++) { PhysicsObject* PhysObj = m_physobj_list[i]; mat4 GroundMat = PhysObj->GetTransform(); PhysObjBarycenter += GroundMat.v3.xyz; factor += 1.f; } PhysObjBarycenter /= factor; m_camera->SetTarget(PhysObjBarycenter); m_camera->SetPosition(GroundBarycenter + normalize(GroundBarycenter - PhysObjBarycenter) * 60.0f); } } void BtPhysTest::TickDraw(float seconds) { WorldEntity::TickDraw(seconds); if (!m_ready) { /* FIXME: this object never cleans up */ m_ready = true; } //Video::SetClearColor(vec4(0.0f, 0.0f, 0.12f, 1.0f)); } BtPhysTest::~BtPhysTest() { Ticker::Unref(m_camera); while (m_constraint_list.Count()) { EasyConstraint* CurPop = m_constraint_list.Last(); m_constraint_list.Pop(); CurPop->RemoveFromSimulation(m_simulation); delete CurPop; } while (m_ground_list.Count()) { PhysicsObject* CurPop = m_ground_list.Last(); m_ground_list.Pop(); CurPop->GetPhysic()->RemoveFromSimulation(m_simulation); Ticker::Unref(CurPop); } while (m_stairs_list.Count()) { PhysicsObject* CurPop = m_stairs_list.Last(); m_stairs_list.Pop(); CurPop->GetPhysic()->RemoveFromSimulation(m_simulation); Ticker::Unref(CurPop); } while (m_character_list.Count()) { PhysicsObject* CurPop = m_character_list.Last(); m_character_list.Pop(); CurPop->GetCharacter()->RemoveFromSimulation(m_simulation); Ticker::Unref(CurPop); } while (m_platform_list.Count()) { PhysicsObject* CurPop = m_platform_list.Last(); m_platform_list.Pop(); CurPop->GetPhysic()->RemoveFromSimulation(m_simulation); Ticker::Unref(CurPop); } while (m_physobj_list.Count()) { PhysicsObject* CurPop = m_physobj_list.Last(); m_physobj_list.Pop(); CurPop->GetPhysic()->RemoveFromSimulation(m_simulation); Ticker::Unref(CurPop); } Ticker::Unref(m_simulation); } int main(int argc, char **argv) { System::Init(argc, argv); Application app("BtPhysTest", ivec2(1280, 720), 60.0f); new BtPhysTest(argc > 1); app.ShowPointer(false); app.Run(); return EXIT_SUCCESS; }