conditions for boom mode

This commit is contained in:
ohsqueezy 2022-07-23 20:23:57 -04:00
parent c55bcd0ee8
commit 7cb7c2e806
4 changed files with 124 additions and 44 deletions

View File

@ -14,6 +14,7 @@
},
"keys":
{
"toggle-boom": ["CTRL", "b"]
},
"input":
{
@ -31,8 +32,17 @@
},
"sim":
{
"wall-count": 48,
"cuckoo-time": 10.0,
"cuckoo-wall-count": 48,
"cuckoo-outer-radius": 0.75,
"cuckoo-inner-radius": 0.65,
"ball-scale": 0.15,
"spawn-radius": 0.35
"ball-count": 3,
"spawn-radius": 0.45,
"ball-bounce-speed": 0.0005,
"ball-shaking-friction": 0.00005,
"ball-not-shaking-friction": 0.0001,
"cuckoo-pull-factor": 1.2,
"cuckoo-return-speed": 0.0075
}
}

2
lib/sb

@ -1 +1 @@
Subproject commit 7e31b5a1c00f38dbd9d667f7e4174a5341ac550f
Subproject commit a3fba9c38aa344e8352abc101a4410bc544afcdf

View File

@ -19,9 +19,9 @@ Pepy::Pepy()
get_delegate().subscribe(&Pepy::respond, this, SDL_MOUSEBUTTONDOWN);
get_delegate().subscribe(&Pepy::respond, this, SDL_MOUSEBUTTONUP);
/* create a glowing ring */
int point_count = configuration()["sim"]["wall-count"].get<int>() + 1;
std::vector<glm::vec2> outer_points = sb::points_on_circle(point_count, 0.75f, {0.0f, 0.0f});
std::vector<glm::vec2> inner_points = sb::points_on_circle(point_count, 0.65f, {0.0f, 0.0f});
int point_count = configuration()["sim"]["cuckoo-wall-count"].get<int>() + 1;
std::vector<glm::vec2> outer_points = sb::points_on_circle(point_count, configuration()["sim"]["cuckoo-outer-radius"], {0.0f, 0.0f});
std::vector<glm::vec2> inner_points = sb::points_on_circle(point_count, configuration()["sim"]["cuckoo-inner-radius"], {0.0f, 0.0f});
float inner_saturation = 0.1f;
float inner_value = 1.0f;
float outer_saturation = 1.0f;
@ -43,15 +43,13 @@ Pepy::Pepy()
cuckoo["color"]->add(glm::rgbColor(glm::vec3(next / static_cast<float>(point_count) * 255.0f, inner_saturation, inner_value)));
cuckoo["color"]->add(glm::rgbColor(glm::vec3(next / static_cast<float>(point_count) * 255.0f, outer_saturation, outer_value)));
}
/* create balls */
float size = configuration()["sim"]["ball-scale"];
auto spawn_points = sb::points_on_circle(5, configuration()["sim"]["spawn-radius"]);
for (auto spawn_point : spawn_points)
/* Create the playing balls */
for (std::size_t ball_ii = 0; ball_ii < configuration()["sim"]["ball-count"]; ball_ii++)
{
Plane ball;
ball.transformation(glm::translate(glm::vec3{spawn_point.x, spawn_point.y, 1.0f}) * glm::scale(glm::vec3{size, size, 1.0f}));
wad.push_back(std::pair{ball, glm::vec2{0.0f, 0.0f}});
}
situate_balls();
background.transformation(glm::scale(glm::vec3{5.0f, 5.0f, 1.0f}));
/* load Open GL */
load_gl_context();
@ -59,7 +57,7 @@ Pepy::Pepy()
sb::Texture wad_texture {"resource/wad.png"};
wad_texture.load();
/* Apply the wad texture to each wad */
for (size_t wad_ii = 0; wad_ii < wad.size(); wad_ii++)
for (std::size_t wad_ii = 0; wad_ii < wad.size(); wad_ii++)
{
wad[wad_ii].first.texture(wad_texture);
}
@ -68,7 +66,17 @@ Pepy::Pepy()
background.texture(texture);
}
/* Create GL context via super class and load vertices, UV data, and shaders */
void Pepy::situate_balls()
{
float size = configuration()["sim"]["ball-scale"];
auto spawn_points = sb::points_on_circle(wad.size(), configuration()["sim"]["spawn-radius"]);
int ii = 0;
for (auto& ball : wad)
{
ball.first.transformation(glm::translate(glm::vec3{spawn_points[ii].x, spawn_points[ii++].y, 1.0f}) * glm::scale(glm::vec3{size, size, 1.0f}));
}
}
void Pepy::load_gl_context()
{
super::load_gl_context();
@ -115,17 +123,33 @@ void Pepy::respond(SDL_Event& event)
{
/* Will check if reset should be triggered */
bool reset = false;
if (Delegate::compare(event, "toggle-boom"))
{
boom = !boom;
}
/* Check for any direction key when waiting to reset */
if (stopped && delegate.compare(event, {"up", "down", "left", "right"}))
{
reset = true;
}
/* Check mouse buttons for grabbing */
/* Check mouse buttons to initiate grabbing, thrusting, or reset */
if (event.type == SDL_MOUSEBUTTONDOWN)
{
if (shaking)
{
grabbed = true;
/* In regular mode, a mouse click means grab the cuckoo */
if (!boom)
{
grabbed = true;
}
/* In BOOM mode, a mouse click means to thrust the cuckoo */
else
{
/* Point cuckoo in the direction of the mouse click relative to the center of the screen. Set the velocity to
* maximum so the cuckoo immediately moves in the calculated direction. */
cuckoo_velocity.x = sb::angle_between({0.0f, 0.0f}, mouse_ndc());
cuckoo_velocity.y = 0.5f;
}
}
/* Mouse button will trigger reset when game is waiting to reset */
else if (stopped)
@ -133,6 +157,7 @@ void Pepy::respond(SDL_Event& event)
reset = true;
}
}
/* Ungrab is the only thing mouse up does */
else if (event.type == SDL_MOUSEBUTTONUP && shaking)
{
grabbed = false;
@ -140,23 +165,27 @@ void Pepy::respond(SDL_Event& event)
/* Reset to cuckoo time */
if (reset)
{
float size = configuration()["sim"]["ball-scale"];
auto spawn_points = sb::points_on_circle(5, configuration()["sim"]["spawn-radius"]);
int ii = 0;
for (auto& ball : wad)
{
ball.first.transformation(glm::translate(glm::vec3{spawn_points[ii].x, spawn_points[ii++].y, 1.0f}) * glm::scale(glm::vec3{size, size, 1.0f}));
}
situate_balls();
stopped = false;
shaking = true;
}
}
/* Update state and draw the screen */
glm::vec2 Pepy::mouse_ndc()
{
glm::ivec2 mouse_pixel;
SDL_GetMouseState(&mouse_pixel.x, &mouse_pixel.y);
return {
static_cast<float>(mouse_pixel.x) / window_box().width() * 2.0f - 1.0f,
(1.0f - static_cast<float>(mouse_pixel.y) / window_box().height()) * 2.0f - 1.0f
};
}
void Pepy::update()
{
/* number of seconds running */
time_seconds = SDL_GetTicks() / 1000.0f;
/* Move countdown along during the shaking phase */
if (shaking)
{
countdown -= last_frame_length / 1000.0f;
@ -164,20 +193,23 @@ void Pepy::update()
{
shaking = false;
flying = true;
countdown = 10.0f;
countdown = configuration()["sim"]["cuckoo-time"];
/* During a BOOM shake, freeze motion at the release point. */
if (boom)
{
for (auto& ball : wad)
{
ball.second.y = 0.0f;
}
}
}
}
/* move cuckoo with mouse */
/* Move cuckoo with mouse */
if (grabbed && shaking)
{
/* get mouse coordinates in NDC */
SDL_GetMouseState(&mouse_pixel.x, &mouse_pixel.y);
glm::vec2 mouse_ndc {
static_cast<float>(mouse_pixel.x) / window_box().width() * 2.0f - 1.0f,
(1.0f - static_cast<float>(mouse_pixel.y) / window_box().height()) * 2.0f - 1.0f
};
cuckoo_offset.x += weight(mouse_ndc.x / 20.0f) * std::max(std::min(std::abs(1.0f - cuckoo_offset.x), 1.0f), 0.1f);
cuckoo_offset.y += weight(mouse_ndc.y / 20.0f) * std::max(std::min(std::abs(1.0f - cuckoo_offset.y), 1.0f), 0.1f);
glm::vec2 ndc = mouse_ndc();
cuckoo_offset.x += weight(ndc.x / 20.0f) * std::max(std::min(std::abs(1.0f - cuckoo_offset.x), 1.0f), 0.1f);
cuckoo_offset.y += weight(ndc.y / 20.0f) * std::max(std::min(std::abs(1.0f - cuckoo_offset.y), 1.0f), 0.1f);
}
else
{
@ -230,9 +262,22 @@ void Pepy::update()
cuckoo_offset.x -= motion;
}
}
cuckoo_offset.x -= weight(glm::sign(cuckoo_offset).x * return_speed);
cuckoo_offset.y -= weight(glm::sign(cuckoo_offset).y * return_speed);
cuckoo.transformation(glm::translate(cuckoo_offset));
cuckoo_offset.x -= weight(glm::sign(cuckoo_offset).x * configuration()["sim"]["cuckoo-return-speed"].get<float>());
cuckoo_offset.y -= weight(glm::sign(cuckoo_offset).y * configuration()["sim"]["cuckoo-return-speed"].get<float>());
/* In regular mode, apply the cuckoo offset */
if (!boom)
{
cuckoo.transformation(glm::translate(cuckoo_offset));
}
/* In boom mode, apply the cuckoo velocity */
else
{
/* Retract */
cuckoo_velocity.y = std::max(0.0f, cuckoo_velocity.y - weight(0.01f));
/* Change velocity to offset */
glm::vec2 delta = sb::velocity_to_delta(cuckoo_velocity);
cuckoo.transformation(glm::translate(glm::vec3{delta.x, delta.y, 0.0f}));
}
hue_offset += weight(0.002f);
glm::vec2 x_range = {-1.0f, 1.0f};
glm::vec2 y_range = {-1.0f, 1.0f};
@ -246,11 +291,18 @@ void Pepy::update()
if (shaking)
{
/* The ball will bounce back toward the center of the cuckoo if it's a certain distance away from it. */
if (distance > 0.65f)
if (distance > configuration()["sim"]["cuckoo-inner-radius"])
{
/* Calculate the angle of the ball and add speed. */
ball.second.x = sb::angle_between(ball_center, cuckoo_center);
ball.second.y += 0.0005f;
if (!boom)
{
ball.second.y += configuration()["sim"]["ball-bounce-speed"].get<float>();
}
else
{
ball.second.y += cuckoo_velocity.y * std::abs(sb::angle_ratio(ball.second.x, cuckoo_velocity.x)) * 0.1f;
}
}
}
glm::vec2 step = sb::velocity_to_delta(ball.second);
@ -260,11 +312,11 @@ void Pepy::update()
float friction;
if (shaking)
{
friction = 0.00005f;
friction = configuration()["sim"]["ball-shaking-friction"];
}
else
{
friction = 0.0001f;
friction = configuration()["sim"]["ball-not-shaking-friction"];
}
ball.second.y = std::max(0.0f, ball.second.y - friction);
}

View File

@ -59,22 +59,40 @@ private:
/* Convention for calling parent class in a consistent way across classes */
typedef Game super;
bool shaking = true, flying = false, stopped = false;
bool shaking = true, flying = false, stopped = false, boom = false, grabbed = false;
sb::VAO cuckoo_vao, wad_vao;
sb::VBO vbo;
GLuint shader;
Model cuckoo;
std::vector<std::pair<Plane, glm::vec2>> wad;
std::map<std::string, GLuint> uniform;
float hue_offset = 0.0f, time_seconds = 0.0f, aspect_ratio = 1.0f, return_speed = 0.0075f, cuckoo_speed = 0.0f, countdown = 10.0f;
float hue_offset = 0.0f, time_seconds = 0.0f, aspect_ratio = 1.0f, cuckoo_speed = 0.0f,
countdown = configuration()["sim"]["cuckoo-time"];
glm::mat4 orthographic_projection {1};
glm::vec3 cuckoo_offset {0.0f, 0.0f, 0.0f};
glm::vec2 cuckoo_velocity {0.0f, 0.0f};
bool grabbed = false;
glm::ivec2 mouse_pixel = {0, 0};
Plane background;
/*!
* Situate the balls in their starting position. Useful for reseting to initial state.
*/
void situate_balls();
/*!
* Call the Game class's GL load functions then load graphics (vertices, UVs, shaders, buffers, uniforms) into OpenGL.
*/
void load_gl_context();
/*!
* Get current mouse coordinates as NDC.
*
* @return vector of X/Y coordinates of current mouse position
*/
glm::vec2 mouse_ndc();
/*!
* Update state and draw the screen.
*/
void update();
public: