#include "lc_global.h" #include "lc_math.h" #include "lc_colors.h" #include #include #include #include #include "light.h" #include "camera.h" #include "view.h" #include "lc_application.h" #include "lc_context.h" #define LC_LIGHT_POSITION_EDGE 7.5f #define LC_LIGHT_TARGET_EDGE 5.0f #define LC_LIGHT_SPHERE_RADIUS 5.0f // New omni light. lcLight::lcLight(float px, float py, float pz) : lcObject(LC_OBJECT_LIGHT) { Initialize(lcVector3(px, py, pz), lcVector3(0.0f, 0.0f, 0.0f)); UpdatePosition(1); } // New directional or spot light. lcLight::lcLight(float px, float py, float pz, float tx, float ty, float tz) : lcObject(LC_OBJECT_LIGHT) { Initialize(lcVector3(px, py, pz), lcVector3(tx, ty, tz)); mState |= LC_LIGHT_SPOT; UpdatePosition(1); } void lcLight::Initialize(const lcVector3& Position, const lcVector3& TargetPosition) { mState = 0; memset(m_strName, 0, sizeof(m_strName)); ChangeKey(mPositionKeys, Position, 1, true); ChangeKey(mTargetPositionKeys, TargetPosition, 1, true); ChangeKey(mAmbientColorKeys, lcVector4(0.0f, 0.0f, 0.0f, 1.0f), 1, true); ChangeKey(mDiffuseColorKeys, lcVector4(0.8f, 0.8f, 0.8f, 1.0f), 1, true); ChangeKey(mSpecularColorKeys, lcVector4(1.0f, 1.0f, 1.0f, 1.0f), 1, true); ChangeKey(mAttenuationKeys, lcVector3(1.0f, 0.0f, 0.0f), 1, true); ChangeKey(mSpotCutoffKeys, 30.0f, 1, true); ChangeKey(mSpotExponentKeys, 0.0f, 1, true); } lcLight::~lcLight() { } void lcLight::SaveLDraw(QTextStream& Stream) const { } void lcLight::CreateName(const lcArray& Lights) { if (m_strName[0]) { bool Found = false; for (int LightIdx = 0; LightIdx < Lights.GetSize(); LightIdx++) { if (!strcmp(Lights[LightIdx]->m_strName, m_strName)) { Found = true; break; } } if (!Found) return; } int i, max = 0; for (int LightIdx = 0; LightIdx < Lights.GetSize(); LightIdx++) { lcLight* pLight = Lights[LightIdx]; if (strncmp(pLight->m_strName, "Light ", 6) == 0) { if (sscanf(pLight->m_strName + 6, " #%d", &i) == 1) { if (i > max) max = i; } } } sprintf(m_strName, "Light #%.2d", max+1); } void lcLight::CompareBoundingBox(float box[6]) { const lcVector3 Points[2] = { mPosition, mTargetPosition }; for (int i = 0; i < (IsPointLight() ? 1 : 2); i++) { const lcVector3& Point = Points[i]; if (Point[0] < box[0]) box[0] = Point[0]; if (Point[1] < box[1]) box[1] = Point[1]; if (Point[2] < box[2]) box[2] = Point[2]; if (Point[0] > box[3]) box[3] = Point[0]; if (Point[1] > box[4]) box[4] = Point[1]; if (Point[2] > box[5]) box[5] = Point[2]; } } void lcLight::RayTest(lcObjectRayTest& ObjectRayTest) const { if (IsPointLight()) { float Distance; if (lcSphereRayMinIntersectDistance(mPosition, LC_LIGHT_SPHERE_RADIUS, ObjectRayTest.Start, ObjectRayTest.End, &Distance)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_LIGHT_SECTION_POSITION; ObjectRayTest.Distance = Distance; } return; } lcVector3 Min = lcVector3(-LC_LIGHT_POSITION_EDGE, -LC_LIGHT_POSITION_EDGE, -LC_LIGHT_POSITION_EDGE); lcVector3 Max = lcVector3(LC_LIGHT_POSITION_EDGE, LC_LIGHT_POSITION_EDGE, LC_LIGHT_POSITION_EDGE); lcVector3 Start = lcMul31(ObjectRayTest.Start, mWorldLight); lcVector3 End = lcMul31(ObjectRayTest.End, mWorldLight); float Distance; if (lcBoundingBoxRayIntersectDistance(Min, Max, Start, End, &Distance, NULL) && (Distance < ObjectRayTest.Distance)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_LIGHT_SECTION_POSITION; ObjectRayTest.Distance = Distance; } Min = lcVector3(-LC_LIGHT_TARGET_EDGE, -LC_LIGHT_TARGET_EDGE, -LC_LIGHT_TARGET_EDGE); Max = lcVector3(LC_LIGHT_TARGET_EDGE, LC_LIGHT_TARGET_EDGE, LC_LIGHT_TARGET_EDGE); lcMatrix44 WorldTarget = mWorldLight; WorldTarget.SetTranslation(lcMul30(-mTargetPosition, WorldTarget)); Start = lcMul31(ObjectRayTest.Start, WorldTarget); End = lcMul31(ObjectRayTest.End, WorldTarget); if (lcBoundingBoxRayIntersectDistance(Min, Max, Start, End, &Distance, NULL) && (Distance < ObjectRayTest.Distance)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_LIGHT_SECTION_TARGET; ObjectRayTest.Distance = Distance; } } void lcLight::BoxTest(lcObjectBoxTest& ObjectBoxTest) const { if (IsPointLight()) { for (int PlaneIdx = 0; PlaneIdx < 6; PlaneIdx++) if (lcDot3(mPosition, ObjectBoxTest.Planes[PlaneIdx]) + ObjectBoxTest.Planes[PlaneIdx][3] > LC_LIGHT_SPHERE_RADIUS) return; ObjectBoxTest.Objects.Add(const_cast(this)); return; } lcVector3 Min(-LC_LIGHT_POSITION_EDGE, -LC_LIGHT_POSITION_EDGE, -LC_LIGHT_POSITION_EDGE); lcVector3 Max(LC_LIGHT_POSITION_EDGE, LC_LIGHT_POSITION_EDGE, LC_LIGHT_POSITION_EDGE); lcVector4 LocalPlanes[6]; for (int PlaneIdx = 0; PlaneIdx < 6; PlaneIdx++) { lcVector3 Normal = lcMul30(ObjectBoxTest.Planes[PlaneIdx], mWorldLight); LocalPlanes[PlaneIdx] = lcVector4(Normal, ObjectBoxTest.Planes[PlaneIdx][3] - lcDot3(mWorldLight[3], Normal)); } if (lcBoundingBoxIntersectsVolume(Min, Max, LocalPlanes)) { ObjectBoxTest.Objects.Add(const_cast(this)); return; } Min = lcVector3(-LC_LIGHT_TARGET_EDGE, -LC_LIGHT_TARGET_EDGE, -LC_LIGHT_TARGET_EDGE); Max = lcVector3(LC_LIGHT_TARGET_EDGE, LC_LIGHT_TARGET_EDGE, LC_LIGHT_TARGET_EDGE); lcMatrix44 WorldTarget = mWorldLight; WorldTarget.SetTranslation(lcMul30(-mTargetPosition, WorldTarget)); for (int PlaneIdx = 0; PlaneIdx < 6; PlaneIdx++) { lcVector3 Normal = lcMul30(ObjectBoxTest.Planes[PlaneIdx], WorldTarget); LocalPlanes[PlaneIdx] = lcVector4(Normal, ObjectBoxTest.Planes[PlaneIdx][3] - lcDot3(WorldTarget[3], Normal)); } if (lcBoundingBoxIntersectsVolume(Min, Max, LocalPlanes)) { ObjectBoxTest.Objects.Add(const_cast(this)); return; } } void lcLight::Move(lcStep Step, bool AddKey, const lcVector3& Distance) { if (IsSelected(LC_LIGHT_SECTION_POSITION)) { mPosition += Distance; ChangeKey(mPositionKeys, mPosition, Step, AddKey); } if (IsSelected(LC_LIGHT_SECTION_TARGET)) { mTargetPosition += Distance; ChangeKey(mTargetPositionKeys, mTargetPosition, Step, AddKey); } } void lcLight::InsertTime(lcStep Start, lcStep Time) { lcObject::InsertTime(mPositionKeys, Start, Time); lcObject::InsertTime(mTargetPositionKeys, Start, Time); lcObject::InsertTime(mAmbientColorKeys, Start, Time); lcObject::InsertTime(mDiffuseColorKeys, Start, Time); lcObject::InsertTime(mSpecularColorKeys, Start, Time); lcObject::InsertTime(mAttenuationKeys, Start, Time); lcObject::InsertTime(mSpotCutoffKeys, Start, Time); lcObject::InsertTime(mSpotExponentKeys, Start, Time); } void lcLight::RemoveTime(lcStep Start, lcStep Time) { lcObject::RemoveTime(mPositionKeys, Start, Time); lcObject::RemoveTime(mTargetPositionKeys, Start, Time); lcObject::RemoveTime(mAmbientColorKeys, Start, Time); lcObject::RemoveTime(mDiffuseColorKeys, Start, Time); lcObject::RemoveTime(mSpecularColorKeys, Start, Time); lcObject::RemoveTime(mAttenuationKeys, Start, Time); lcObject::RemoveTime(mSpotCutoffKeys, Start, Time); lcObject::RemoveTime(mSpotExponentKeys, Start, Time); } void lcLight::UpdatePosition(lcStep Step) { mPosition = CalculateKey(mPositionKeys, Step); mTargetPosition = CalculateKey(mTargetPositionKeys, Step); mAmbientColor = CalculateKey(mAmbientColorKeys, Step); mDiffuseColor = CalculateKey(mDiffuseColorKeys, Step); mSpecularColor = CalculateKey(mSpecularColorKeys, Step); mAttenuation = CalculateKey(mAttenuationKeys, Step); mSpotCutoff = CalculateKey(mSpotCutoffKeys, Step); mSpotExponent = CalculateKey(mSpotExponentKeys, Step); if (IsPointLight()) { mWorldLight = lcMatrix44Identity(); mWorldLight.SetTranslation(-mPosition); } else { lcVector3 FrontVector(mTargetPosition - mPosition); lcVector3 UpVector(1, 1, 1); if (fabs(FrontVector[0]) < fabs(FrontVector[1])) { if (fabs(FrontVector[0]) < fabs(FrontVector[2])) UpVector[0] = -(UpVector[1] * FrontVector[1] + UpVector[2] * FrontVector[2]); else UpVector[2] = -(UpVector[0] * FrontVector[0] + UpVector[1] * FrontVector[1]); } else { if (fabs(FrontVector[1]) < fabs(FrontVector[2])) UpVector[1] = -(UpVector[0] * FrontVector[0] + UpVector[2] * FrontVector[2]); else UpVector[2] = -(UpVector[0] * FrontVector[0] + UpVector[1] * FrontVector[1]); } mWorldLight = lcMatrix44LookAt(mPosition, mTargetPosition, UpVector); } } void lcLight::DrawInterface(lcContext* Context) const { Context->SetProgram(LC_PROGRAM_SIMPLE); if (IsPointLight()) DrawPointLight(Context); else DrawSpotLight(Context); } void lcLight::DrawSpotLight(lcContext* Context) const { lcVector3 FrontVector(mTargetPosition - mPosition); lcVector3 UpVector(1, 1, 1); if (fabs(FrontVector[0]) < fabs(FrontVector[1])) { if (fabs(FrontVector[0]) < fabs(FrontVector[2])) UpVector[0] = -(UpVector[1] * FrontVector[1] + UpVector[2] * FrontVector[2]); else UpVector[2] = -(UpVector[0] * FrontVector[0] + UpVector[1] * FrontVector[1]); } else { if (fabs(FrontVector[1]) < fabs(FrontVector[2])) UpVector[1] = -(UpVector[0] * FrontVector[0] + UpVector[2] * FrontVector[2]); else UpVector[2] = -(UpVector[0] * FrontVector[0] + UpVector[1] * FrontVector[1]); } lcMatrix44 LightMatrix = lcMatrix44LookAt(mPosition, mTargetPosition, UpVector); LightMatrix = lcMatrix44AffineInverse(LightMatrix); LightMatrix.SetTranslation(lcVector3(0, 0, 0)); lcMatrix44 LightViewMatrix = lcMul(LightMatrix, lcMatrix44Translation(mPosition)); Context->SetWorldMatrix(LightViewMatrix); float Verts[(20 + 8 + 2 + 16) * 3]; float* CurVert = Verts; for (int EdgeIdx = 0; EdgeIdx < 8; EdgeIdx++) { float c = cosf((float)EdgeIdx / 4 * LC_PI) * LC_LIGHT_POSITION_EDGE; float s = sinf((float)EdgeIdx / 4 * LC_PI) * LC_LIGHT_POSITION_EDGE; *CurVert++ = c; *CurVert++ = s; *CurVert++ = LC_LIGHT_POSITION_EDGE; *CurVert++ = c; *CurVert++ = s; *CurVert++ = -LC_LIGHT_POSITION_EDGE; } *CurVert++ = -12.5f; *CurVert++ = -12.5f; *CurVert++ = -LC_LIGHT_POSITION_EDGE; *CurVert++ = 12.5f; *CurVert++ = -12.5f; *CurVert++ = -LC_LIGHT_POSITION_EDGE; *CurVert++ = 12.5f; *CurVert++ = 12.5f; *CurVert++ = -LC_LIGHT_POSITION_EDGE; *CurVert++ = -12.5f; *CurVert++ = 12.5f; *CurVert++ = -LC_LIGHT_POSITION_EDGE; float Length = FrontVector.Length(); *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE; *CurVert++ = -LC_LIGHT_TARGET_EDGE - Length; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = 0.0f; *CurVert++ = -Length; const GLushort Indices[56 + 24 + 2 + 40] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 0, 2, 2, 4, 4, 6, 6, 8, 8, 10, 10, 12, 12, 14, 14, 0, 1, 3, 3, 5, 5, 7, 7, 9, 9, 11, 11, 13, 13, 15, 15, 1, 16, 17, 17, 18, 18, 19, 19, 16, 20, 21, 21, 22, 22, 23, 23, 20, 24, 25, 25, 26, 26, 27, 27, 24, 20, 24, 21, 25, 22, 26, 23, 27, 28, 29, 30, 31, 31, 32, 32, 33, 33, 34, 34, 35, 35, 36, 36, 37, 37, 38, 38, 39, 39, 40, 40, 41, 41, 42, 42, 43, 43, 44, 44, 45, 45, 30, 28, 30, 28, 34, 28, 38, 28, 42 }; Context->SetVertexBufferPointer(Verts); Context->SetVertexFormat(0, 3, 0, 0); Context->SetIndexBufferPointer(Indices); float LineWidth = lcGetPreferences().mLineWidth; if (!IsSelected()) { Context->SetLineWidth(LineWidth); Context->SetInterfaceColor(LC_COLOR_LIGHT); Context->DrawIndexedPrimitives(GL_LINES, 56 + 24 + 2, GL_UNSIGNED_SHORT, 0); } else { if (IsSelected(LC_LIGHT_SECTION_POSITION)) { Context->SetLineWidth(2.0f * LineWidth); if (IsFocused(LC_LIGHT_SECTION_POSITION)) Context->SetInterfaceColor(LC_COLOR_FOCUSED); else Context->SetInterfaceColor(LC_COLOR_SELECTED); } else { Context->SetLineWidth(LineWidth); Context->SetInterfaceColor(LC_COLOR_LIGHT); } Context->DrawIndexedPrimitives(GL_LINES, 56, GL_UNSIGNED_SHORT, 0); if (IsSelected(LC_LIGHT_SECTION_TARGET)) { Context->SetLineWidth(2.0f * LineWidth); if (IsFocused(LC_LIGHT_SECTION_TARGET)) Context->SetInterfaceColor(LC_COLOR_FOCUSED); else Context->SetInterfaceColor(LC_COLOR_SELECTED); } else { Context->SetLineWidth(LineWidth); Context->SetInterfaceColor(LC_COLOR_LIGHT); } Context->DrawIndexedPrimitives(GL_LINES, 24, GL_UNSIGNED_SHORT, 56 * 2); Context->SetLineWidth(LineWidth); Context->SetInterfaceColor(LC_COLOR_LIGHT); float Radius = tanf(LC_DTOR * mSpotCutoff) * Length; for (int EdgeIdx = 0; EdgeIdx < 16; EdgeIdx++) { *CurVert++ = cosf((float)EdgeIdx / 16 * LC_2PI) * Radius; *CurVert++ = sinf((float)EdgeIdx / 16 * LC_2PI) * Radius; *CurVert++ = -Length; } Context->DrawIndexedPrimitives(GL_LINES, 2 + 40, GL_UNSIGNED_SHORT, (56 + 24) * 2); } Context->ClearVertexBuffer(); // context remove } void lcLight::DrawPointLight(lcContext* Context) const { const int Slices = 6; const int NumIndices = 3 * Slices + 6 * Slices * (Slices - 2) + 3 * Slices; const int NumVertices = (Slices - 1) * Slices + 2; const float Radius = LC_LIGHT_SPHERE_RADIUS; lcVector3 Vertices[NumVertices]; lcuint16 Indices[NumIndices]; lcVector3* Vertex = Vertices; lcuint16* Index = Indices; *Vertex++ = lcVector3(0, 0, Radius); for (int i = 1; i < Slices; i++ ) { float r0 = Radius * sinf(i * (LC_PI / Slices)); float z0 = Radius * cosf(i * (LC_PI / Slices)); for (int j = 0; j < Slices; j++) { float x0 = r0 * sinf(j * (LC_2PI / Slices)); float y0 = r0 * cosf(j * (LC_2PI / Slices)); *Vertex++ = lcVector3(x0, y0, z0); } } *Vertex++ = lcVector3(0, 0, -Radius); for (int i = 0; i < Slices - 1; i++ ) { *Index++ = 0; *Index++ = 1 + i; *Index++ = 1 + i + 1; } *Index++ = 0; *Index++ = 1; *Index++ = 1 + Slices - 1; for (int i = 0; i < Slices - 2; i++ ) { int Row1 = 1 + i * Slices; int Row2 = 1 + (i + 1) * Slices; for (int j = 0; j < Slices - 1; j++ ) { *Index++ = Row1 + j; *Index++ = Row2 + j + 1; *Index++ = Row2 + j; *Index++ = Row1 + j; *Index++ = Row1 + j + 1; *Index++ = Row2 + j + 1; } *Index++ = Row1 + Slices - 1; *Index++ = Row2 + 0; *Index++ = Row2 + Slices - 1; *Index++ = Row1 + Slices - 1; *Index++ = Row2 + 0; *Index++ = Row1 + 0; } for (int i = 0; i < Slices - 1; i++ ) { *Index++ = (Slices - 1) * Slices + 1; *Index++ = (Slices - 1) * (Slices - 1) + i; *Index++ = (Slices - 1) * (Slices - 1) + i + 1; } *Index++ = (Slices - 1) * Slices + 1; *Index++ = (Slices - 1) * (Slices - 1) + (Slices - 2) + 1; *Index++ = (Slices - 1) * (Slices - 1); Context->SetWorldMatrix(lcMatrix44Translation(mPosition)); if (IsFocused(LC_LIGHT_SECTION_POSITION)) Context->SetInterfaceColor(LC_COLOR_FOCUSED); else if (IsSelected(LC_LIGHT_SECTION_POSITION)) Context->SetInterfaceColor(LC_COLOR_SELECTED); else Context->SetInterfaceColor(LC_COLOR_LIGHT); Context->SetVertexBufferPointer(Vertices); Context->SetVertexFormat(0, 3, 0, 0); Context->SetIndexBufferPointer(Indices); Context->DrawIndexedPrimitives(GL_TRIANGLES, NumIndices, GL_UNSIGNED_SHORT, 0); } bool lcLight::Setup(int LightIndex) { GLenum LightName = (GLenum)(GL_LIGHT0 + LightIndex); if (mState & LC_LIGHT_DISABLED) return false; glEnable(LightName); glLightfv(LightName, GL_AMBIENT, mAmbientColor); glLightfv(LightName, GL_DIFFUSE, mDiffuseColor); glLightfv(LightName, GL_SPECULAR, mSpecularColor); if (!IsDirectionalLight()) { glLightf(LightName, GL_CONSTANT_ATTENUATION, mAttenuation[0]); glLightf(LightName, GL_LINEAR_ATTENUATION, mAttenuation[1]); glLightf(LightName, GL_QUADRATIC_ATTENUATION, mAttenuation[2]); lcVector4 Position(mPosition, 1.0f); glLightfv(LightName, GL_POSITION, Position); } else { lcVector4 Position(mPosition, 0.0f); glLightfv(LightName, GL_POSITION, Position); } if (IsPointLight()) { glLightf(LightName, GL_SPOT_CUTOFF, 180.0f); } else if (IsSpotLight()) { lcVector3 Dir(mTargetPosition - mPosition); Dir.Normalize(); glLightf(LightName, GL_SPOT_CUTOFF, mSpotCutoff); glLightf(LightName, GL_SPOT_EXPONENT, mSpotExponent); glLightfv(LightName, GL_SPOT_DIRECTION, Dir); } return true; }