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author | Matt Strapp <matt@mattstrapp.net> | 2021-10-18 20:43:13 -0500 |
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committer | Matt Strapp <matt@mattstrapp.net> | 2021-10-18 20:43:13 -0500 |
commit | 9d5c7eaac6e14caa0c5640efbf973e603eee0cf8 (patch) | |
tree | 2326363e9690ca2facb7bed0c7c7c5c14f5a1d64 | |
parent | Do w3 (diff) | |
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do a3submission-p3.0
-rw-r--r-- | dev/a3-earthquake/README.md | 7 | ||||
-rw-r--r-- | dev/a3-earthquake/earth.cc | 93 | ||||
-rw-r--r-- | dev/a3-earthquake/earth.h | 33 | ||||
-rw-r--r-- | dev/a3-earthquake/quake_app.cc | 63 | ||||
-rw-r--r-- | dev/a3-earthquake/quake_app.h | 8 |
5 files changed, 162 insertions, 42 deletions
diff --git a/dev/a3-earthquake/README.md b/dev/a3-earthquake/README.md index 1b32e4c..9a1af8e 100644 --- a/dev/a3-earthquake/README.md +++ b/dev/a3-earthquake/README.md @@ -1 +1,8 @@ # CSci-4611 Assignment 3: Earthquake +## By Matt Strapp +I didn't forget to do this this time! + +### Design Decisions +The mapping I chose for the colors of the earthquakes was based on a [graph](https://upload.wikimedia.org/wikipedia/commons/d/de/Earthquake_severity.jpg) I found on Wikipedia. The size is based on the magnitude of the earthquake, normalized to the largest one in the database and how recent the quake was. + +Most of them are red (high magnitude) which does not seem correct.
\ No newline at end of file diff --git a/dev/a3-earthquake/earth.cc b/dev/a3-earthquake/earth.cc index db43b10..e2c87da 100644 --- a/dev/a3-earthquake/earth.cc +++ b/dev/a3-earthquake/earth.cc @@ -17,6 +17,10 @@ Earth::Earth() { Earth::~Earth() { } +float lerp(float x, float y, float a) { + return x + a * (y - x); +} + void Earth::Init(const std::vector<std::string> &search_path) { // init shader program shader_.Init(); @@ -25,37 +29,65 @@ void Earth::Init(const std::vector<std::string> &search_path) { earth_tex_.InitFromFile(Platform::FindFile("earth-2k.png", search_path)); // init geometry - const int nslices = 10; - const int nstacks = 10; + + std::vector<Point2> tex; // TODO: This is where you need to set the vertices and indiceds for earth_mesh_. - // As a demo, we'll add a square with 2 triangles. - std::vector<unsigned int> indices; - std::vector<Point3> vertices; - // four vertices - vertices.push_back(Point3(0,0,0)); - vertices.push_back(Point3(1,0,0)); - vertices.push_back(Point3(1,1,0)); - vertices.push_back(Point3(0,1,0)); + for (int i = 0; i < nslices + 1; i++) { + for (int j = 0; j < nstacks + 1; j++) { + Point3 sphere_point = Point3(LatLongToSphere(lerp(-M_PI / 2, M_PI / 2, j * 1.0 / nstacks), lerp(-M_PI, M_PI, i * 1.0 / nslices))); + Point3 plane_point = Point3(lerp(-M_PI, M_PI, i * 1.0 / nslices), lerp(-M_PI / 2, M_PI / 2, j * 1.0 / nstacks), 0); + vertices_.push_back(plane_point); + sphVertices_.push_back(sphere_point); + normals_.push_back(Vector3(0,0,1)); + sphNormals_.push_back(sphere_point - Point3(0,0,0)); + tex_.push_back(Point2(i * 1.0 / nslices, 1 - j * 1.0 / nstacks)); + } + } + + //Lower triangles + for (int i = 0; i < nslices; i++) { + for (int j = 0; j < nstacks; j++) { + indices_.push_back(0 + j + (nstacks + 1) * i); + indices_.push_back(nstacks + 1 + j + (nstacks + 1) * i); + indices_.push_back(1 + j + (nstacks + 1) * i); + } + } + + //Upper triangles + for (int i = 0; i < nslices; i++) { + for (int j = 0; j < nstacks; j++) { + indices_.push_back(1 + j + (nstacks + 1) * i); + indices_.push_back(nstacks + 1 + j + (nstacks + 1) * i); + indices_.push_back(nstacks + 2 + j + (nstacks + 1) * i); + } + } - // indices into the arrays above for the first triangle - indices.push_back(0); - indices.push_back(1); - indices.push_back(2); - // indices for the second triangle, note some are reused - indices.push_back(0); - indices.push_back(2); - indices.push_back(3); - earth_mesh_.SetVertices(vertices); - earth_mesh_.SetIndices(indices); - earth_mesh_.UpdateGPUMemory(); + earth_mesh_.SetVertices(vertices_); + earth_mesh_.SetIndices(indices_); + earth_mesh_.SetTexCoords(0, tex_); + earth_mesh_.SetNormals(normals_); + } - +void Earth::set_globe_mode(bool globe_mode) { + if (globe_mode) { + earth_mesh_.SetVertices(sphVertices_); + earth_mesh_.SetIndices(indices_); + earth_mesh_.SetTexCoords(0, tex_); + earth_mesh_.SetNormals(sphNormals_); + } else { + earth_mesh_.SetVertices(vertices_); + earth_mesh_.SetIndices(indices_); + earth_mesh_.SetTexCoords(0, tex_); + earth_mesh_.SetNormals(normals_); + } + earth_mesh_.UpdateGPUMemory(); +} void Earth::Draw(const Matrix4 &model_matrix, const Matrix4 &view_matrix, const Matrix4 &proj_matrix) { // Define a really bright white light. Lighting is a property of the "shader" @@ -86,13 +118,18 @@ void Earth::Draw(const Matrix4 &model_matrix, const Matrix4 &view_matrix, const Point3 Earth::LatLongToSphere(double latitude, double longitude) const { // TODO: We recommend filling in this function to put all your // lat,long --> sphere calculations in one place. - return Point3(0,0,0); + float x = cos(latitude) * sin(longitude); + float y = sin(latitude); + float z = cos(latitude) * cos(longitude); + + return Point3(x, y, z); } Point3 Earth::LatLongToPlane(double latitude, double longitude) const { // TODO: We recommend filling in this function to put all your // lat,long --> plane calculations in one place. - return Point3(0,0,0); + // return Point3(latitude,longitude,0); + return Point3(GfxMath::ToRadians(longitude), GfxMath::ToRadians(latitude), 0); } @@ -102,11 +139,11 @@ void Earth::DrawDebugInfo(const Matrix4 &model_matrix, const Matrix4 &view_matri // So it will be very slow if you have a large mesh, but it's quite useful when you are // debugging your mesh code, especially if you start with a small mesh. for (int t=0; t<earth_mesh_.num_triangles(); t++) { - std::vector<unsigned int> indices = earth_mesh_.read_triangle_indices_data(t); + std::vector<unsigned int> indices_ = earth_mesh_.read_triangle_indices_data(t); std::vector<Point3> loop; - loop.push_back(earth_mesh_.read_vertex_data(indices[0])); - loop.push_back(earth_mesh_.read_vertex_data(indices[1])); - loop.push_back(earth_mesh_.read_vertex_data(indices[2])); + loop.push_back(earth_mesh_.read_vertex_data(indices_[0])); + loop.push_back(earth_mesh_.read_vertex_data(indices_[1])); + loop.push_back(earth_mesh_.read_vertex_data(indices_[2])); quick_shapes_.DrawLines(model_matrix, view_matrix, proj_matrix, Color(1,1,0), loop, QuickShapes::LinesType::LINE_LOOP, 0.005f); } diff --git a/dev/a3-earthquake/earth.h b/dev/a3-earthquake/earth.h index 2091c11..877b8ab 100644 --- a/dev/a3-earthquake/earth.h +++ b/dev/a3-earthquake/earth.h @@ -15,14 +15,14 @@ class Earth { public: Earth(); virtual ~Earth(); - + /// Load texture and define geometry. Initializes the mesh to the planar /// version of the earth. The searchPath is for finding the texture file. - void Init(const std::vector<std::string> &search_path); + void Init(const std::vector<std::string>& search_path); /// Draw the Earth to screen using the current version of the mesh set with /// the last call to UpdateMesh. - void Draw(const Matrix4 &model_matrix, const Matrix4 &view_matrix, const Matrix4 &proj_matrix); + void Draw(const Matrix4& model_matrix, const Matrix4& view_matrix, const Matrix4& proj_matrix); /// Given latitude and longitude, calculate 3D position for the flat earth /// model that lies on a plane @@ -31,25 +31,38 @@ public: /// Given latitude and longitude, calculate the 3D position for the spherical /// earth model. Point3 LatLongToSphere(double latitude, double longitude) const; - + /// This can be a helpful debugging aid when creating your triangle mesh. It /// draws the triangles and normals for the current earth mesh. - void DrawDebugInfo(const Matrix4 &model_matrix, const Matrix4 &view_matrix, const Matrix4 &proj_matrix); - + void DrawDebugInfo(const Matrix4& model_matrix, const Matrix4& view_matrix, const Matrix4& proj_matrix); + + /// Drawing either plane or sphere + void set_globe_mode(bool mode); + protected: - + const int nslices = 10; + const int nstacks = 10; + // Stores the earth texture map Texture2D earth_tex_; - + // Stores the earth geometry as a renderable mesh Mesh earth_mesh_; - + // Renders meshes with texture and some simple shading DefaultShader shader_; DefaultShader::MaterialProperties earth_material_; - + // Used only for the DrawDebugInfo() routine QuickShapes quick_shapes_; + + //Helper values needed for making earth + std::vector<unsigned int> indices_; + std::vector<Point3> vertices_; + std::vector<Point3> sphVertices_; + std::vector<Vector3> normals_; + std::vector<Vector3> sphNormals_; + std::vector<Point2> tex_; }; diff --git a/dev/a3-earthquake/quake_app.cc b/dev/a3-earthquake/quake_app.cc index 7904bf3..ead8dca 100644 --- a/dev/a3-earthquake/quake_app.cc +++ b/dev/a3-earthquake/quake_app.cc @@ -78,6 +78,14 @@ void QuakeApp::OnLeftMouseDrag(const Point2 &pos, const Vector2 &delta) { void QuakeApp::OnGlobeBtnPressed() { // TODO: This is where you can switch between flat earth mode and globe mode + globe_mode_ = !globe_mode_; + earth_.set_globe_mode(globe_mode_); + if (globe_mode_) + globe_btn_->setCaption("Map"); + else + globe_btn_->setCaption("Globe"); + + } void QuakeApp::OnDebugBtnPressed() { @@ -109,6 +117,11 @@ void QuakeApp::UpdateSimulation(double dt) { // TODO: Any animation, morphing, rotation of the earth, or other things that should // be updated once each frame would go here. + if (globe_mode_) { + rotation_angle_ += GfxMath::ToRadians(5) / 60; + } else { + rotation_angle_ = 0; + } } @@ -123,8 +136,9 @@ void QuakeApp::InitOpenGL() { // Initialize the texture used for the background image stars_tex_.InitFromFile(Platform::FindFile("iss006e40544.png", search_path_)); -} + globe_mode_ = false; +} void QuakeApp::DrawUsingOpenGL() { quick_shapes_.DrawFullscreenTexture(Color(1,1,1), stars_tex_); @@ -132,9 +146,10 @@ void QuakeApp::DrawUsingOpenGL() { // You can leave this as the identity matrix and we will have a fine view of // the earth. If you want to add any rotation or other animation of the // earth, the model_matrix is where you would apply that. - Matrix4 model_matrix; + Matrix4 model_matrix = Matrix4::RotationY(rotation_angle_); // Draw the earth + earth_.Draw(model_matrix, view_matrix_, proj_matrix_); if (debug_mode_) { earth_.DrawDebugInfo(model_matrix, view_matrix_, proj_matrix_); @@ -142,7 +157,49 @@ void QuakeApp::DrawUsingOpenGL() { // TODO: You'll also need to draw the earthquakes. It's up to you exactly // how you wish to do that. - + // Earthquake eq; + float year_ago = current_time_ - PLAYBACK_WINDOW; + int start_index = quake_db_.FindMostRecentQuake(Date(year_ago)); + int end_index = quake_db_.FindMostRecentQuake(Date(current_time_)); + + for (int i = start_index; i < end_index; i++) { + Earthquake eq = quake_db_.earthquake(i); + float time = eq.date().ToSeconds(); + if (time > year_ago && time < current_time_) { + double magnitude_range = quake_db_.max_magnitude() - quake_db_.min_magnitude(); + double magnitude = (quake_db_.max_magnitude() -eq.magnitude()) / magnitude_range * 10.0; + float size = magnitude * 0.01 * ((time - year_ago) / (current_time_ - year_ago)); + if (size < 0.005) + size = 0.01; + if (size > 0.2) + size = 0.2; + // Set position of quake + // Depends on if in globe mode or not + Point3 pos; + if (globe_mode_) + pos = earth_.LatLongToSphere(eq.latitude(), eq.longitude()); + else + pos = earth_.LatLongToPlane(eq.latitude(), eq.longitude()); + + Color qColor = Color(1,1,1); // black, default (SHOULD NEVER BE SEEN) + if (magnitude < 3.0) + qColor = Color(0,0,1); // blue + else if (magnitude < 4.0) + qColor = Color(0,1,0); // green + else if (magnitude < 5.0) + qColor = Color(1,1,0); // yellow + else + qColor = Color(1,0,0); // red + + // Draw quake + // Vector3 translation = pos - Point3(0,0,0); + Matrix4 quake_matrix = Matrix4::Translation(Vector3(pos[0], + pos[1], pos[2])); + Matrix4 scale_matrix = Matrix4::Scale(Vector3(size, size, size)); + Matrix4 transform = quake_matrix * scale_matrix; + quick_shapes_.DrawSphere(model_matrix * transform, view_matrix_, proj_matrix_, qColor); + } + } } diff --git a/dev/a3-earthquake/quake_app.h b/dev/a3-earthquake/quake_app.h index 21d7a8d..bc8dcf9 100644 --- a/dev/a3-earthquake/quake_app.h +++ b/dev/a3-earthquake/quake_app.h @@ -54,13 +54,19 @@ private: // true if drawing debugging info for the mesh bool debug_mode_; + + // true if the earth is in globe mode + bool globe_mode_; // Database through which you can access the earthquakes EarthquakeDatabase quake_db_; // Object for rendering textured earth geometry Earth earth_; - + + float rotation_angle_; + float old_rotation_angle_; + // Background image Texture2D stars_tex_; |