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A 3d fps game made in OpenGL
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Symmetry/src/game.c

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#include <stdlib.h>
#include <stddef.h>
#include <time.h>
#include <limits.h>
#include "game.h"
#include "platform.h"
#include "input.h"
#include "renderer.h"
#include "log.h"
#include "file_io.h"
#include "shader.h"
#include "entity.h"
#include "geometry.h"
#include "array.h"
#include "transform.h"
#include "camera.h"
#include "model.h"
#include "scene.h"
#include "utils.h"
#include "texture.h"
#include "material.h"
#include "framebuffer.h"
#include "light.h"
#include "gl_load.h"
#include "gui.h"
#include "sound.h"
#include "editor.h"
#include "config_vars.h"
#include "hashmap.h"
#include "variant.h"
#define UNUSED(a) (void)a
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#define MAX(a,b) ((a) < (b) ? (b) : (a))
#define LEN(a) (sizeof(a)/sizeof(a)[0])
#define MAX_FRAME_TIME 0.5f
static int run(void);
static void update(float dt, int* window_should_close);
static void render(void);
static void debug(float dt);
static void debug_gui(float dt);
static void scene_setup(void);
static struct Game_State* game_state = NULL;
int game_init(struct Window* window)
{
game_state = malloc(sizeof(*game_state));
if(!game_state)
{
log_error("game:init", "Out of memory, failed to allocate game_state");
return 0;
}
else
{
game_state->window = window;
game_state->player_node = -1;
game_state->player_pitch_node = -1;
game_state->is_initialized = 0;
}
/* TODO: Decouple systems' init/cleanup from game, they should exist and run even if there's no "game" */
/* Init systems */
input_init();
sound_init();
shader_init();
texture_init();
framebuffer_init();
geom_init();
renderer_init();
transform_init();
light_init();
camera_init();
material_init();
editor_init();
model_init();
entity_init();
scene_init();
/* Debug scene setup */
scene_setup();
game_state->is_initialized = 1;
return run();
}
void scene_setup(void)
{
/* struct Key_Combination forward_keys[2] = {{KEY_W, KMD_NONE}, {KEY_UP, KMD_ALT | KMD_SHIFT}}; */
/* struct Key_Combination backward_keys[2] = {{KEY_S, KMD_NONE}, {KEY_DOWN, KMD_NONE}}; */
/* struct Key_Combination up_keys[2] = {KEY_Q}; */
/* struct Key_Combination down_keys[2] = {KEY_E}; */
/* struct Key_Combination left_keys[2] = {KEY_A, KEY_LEFT}; */
/* struct Key_Combination right_keys[2] = {KEY_D, KEY_RIGHT}; */
/* struct Key_Combination turn_right_keys[1] = {KEY_L}; */
/* struct Key_Combination turn_left_keys[1] = {KEY_J}; */
/* struct Key_Combination turn_up_keys[1] = {KEY_I}; */
/* struct Key_Combination turn_down_keys[1] = {KEY_K}; */
/* struct Key_Combination sprint_keys[2] = {KEY_LSHIFT, KEY_RSHIFT}; */
/* struct Key_Combination recompute_keys[2] = {KEY_F5, KEY_H}; */
/* struct Key_Combination ed_toggle_keys[1] = {KEY_F1}; */
/* struct Key_Combination win_fullscr_keys[1] = {KEY_F11}; */
/* struct Key_Combination win_max_keys[1] = {KEY_F12}; */
/* input_map_create("Move_Forward", forward_keys, 2); */
/* input_map_create("Move_Backward", backward_keys, 2); */
/* input_map_create("Move_Up", up_keys, 1); */
/* input_map_create("Move_Down", down_keys, 1); */
/* input_map_create("Move_Left", left_keys, 2); */
/* input_map_create("Move_Right", right_keys, 2); */
/* input_map_create("Turn_Right", turn_right_keys, 1); */
/* input_map_create("Turn_Left", turn_left_keys, 1); */
/* input_map_create("Turn_Up", turn_up_keys, 1); */
/* input_map_create("Turn_Down", turn_down_keys, 1); */
/* input_map_create("Sprint", sprint_keys, 2); */
/* input_map_create("Recompute", recompute_keys, 2); */
/* input_map_create("Editor_Toggle", ed_toggle_keys, 1); */
/* input_map_create("Window_Fullscreen", win_fullscr_keys, 1); */
/* input_map_create("Window_Maximize", win_max_keys, 1); */
struct Entity* player = scene_add_new("player", "None");
game_state->player_node = player->node;
vec3 viewer_pos = {10, 5, 100};
struct Transform* viewer_tran = entity_component_get(player, C_TRANSFORM);
/* struct Model* player_model = entity_component_add(player, C_MODEL, "sphere.pamesh", NULL); */
/* model_set_material_param(player_model, "diffuse_color", &color); */
/* vec4_fill(&color, 1.f, 1.f, 1.f, 1.f); */
transform_set_position(viewer_tran, &viewer_pos);
int render_width, render_height;
render_width = 1024;
render_height = 768;
struct Camera* camera = entity_component_add(player, C_CAMERA, render_width, render_height);
camera_attach_fbo(camera, render_width, render_height, 1, 1, 1);
vec4_fill(&camera->clear_color, 0.3f, 0.6f, 0.9f, 1.0f);
camera_set_primary_viewer(camera);
sound_listener_set(player->node);
vec4 color = {0.f, 1.f, 1.f, 1.f };
struct Entity* new_ent = scene_add_new("Model_Entity", NULL);
struct Transform* tran = entity_component_get(new_ent, C_TRANSFORM);
vec3 position = {0, 0, -5};
transform_translate(tran, &position, TS_WORLD);
struct Model* box_model = entity_component_add(new_ent, C_MODEL, "default.pamesh", "Blinn_Phong");
model_set_material_param(box_model, "diffuse_color", &color);
int tex = texture_create_from_file("white.tga", TU_DIFFUSE);
model_set_material_param(box_model, "diffuse_texture", &tex);
struct Transform* model_tran = entity_component_get(new_ent, C_TRANSFORM);
vec3 scale = {1, 1, 1};
transform_scale(model_tran, &scale);
struct Sound_Source* source = entity_component_add(new_ent, C_SOUND_SOURCE);
if(source)
{
sound_source_load_wav(source, "BigExplosion.wav");
//sound_source_relative_set(source, 1);
sound_source_volume_set(source, 1.f);
sound_source_loop_set(source, 1);
sound_source_play(source);
}
int parent_node = new_ent->node;
int num_suz = 2;
srand(time(NULL));
for(int i = 0; i < num_suz; i++)
{
int x = rand() % num_suz;
int y = rand() % num_suz;
int z = rand() % num_suz;
x++; y++; z++;
struct Entity* suz = scene_add_as_child("Suzanne", NULL, parent_node);
//struct Entity* suz = scene_add_new("Suzanne", NULL);
struct Model* suz_model = entity_component_add(suz, C_MODEL, "suzanne.pamesh", "Blinn_Phong");
model_set_material_param(suz_model, "diffuse_color", &color);
float spec_str = 80.f;
model_set_material_param(suz_model, "specular_strength", &spec_str);
struct Transform* s_tran = entity_component_get(suz, C_TRANSFORM);
vec3 s_pos = {x, 5, z};
transform_translate(s_tran, &s_pos, TS_WORLD);
}
struct Entity* ground = scene_add_new("Ground", NULL);
struct Model* ground_model = entity_component_add(ground, C_MODEL, "plane.pamesh", "Blinn_Phong");
model_set_material_param(ground_model, "diffuse_color", &color);
int white_tex = texture_create_from_file("white.tga", TU_DIFFUSE);
model_set_material_param(ground_model, "diffuse_texture", &white_tex);
float spec_str = 80.f;
model_set_material_param(ground_model, "specular_strength", &spec_str);
struct Transform* ground_tran = entity_component_get(ground, C_TRANSFORM);
vec3 pos = {0, -15, 0};
vec3 scale_ground = {200.f, 200.f, 200.f};
transform_set_position(ground_tran, &pos);
transform_scale(ground_tran, &scale_ground);
/* struct Entity* screen = scene_add_new("Screen", NULL); */
/* struct Model* screen_model = entity_component_add(screen, C_MODEL, NULL, NULL); */
/* screen_model->geometry_index = geom_find("Quad"); */
/* struct Entity* screen_camera = scene_add_as_child("Screen_Camera", NULL, screen->node); */
/* struct Transform* screen_camera_tran = entity_component_get(screen_camera, C_TRANSFORM); */
/* transform_rotate(screen_camera_tran, &UNIT_Y, 180.f, TS_WORLD); */
/* struct Camera* cam = entity_component_add(screen_camera, C_CAMERA, 50, 50); */
/* cam->nearz = 0.1f; */
/* cam->farz = 50.f; */
/* camera_update_proj(cam); */
/* camera_attach_fbo(cam, 128, 128, 1, 1, 0); */
/* model_set_material_param(screen_model, "diffuse_color", &color); */
/* model_set_material_param(screen_model, "diffuse_texture", &cam->render_tex); */
const int MAX_LIGHTS = 3;
for(int i = 0; i < MAX_LIGHTS; i++)
{
int x = rand() % MAX_LIGHTS;
int z = rand() % MAX_LIGHTS;
x++; z++;
struct Entity* light_ent = scene_add_new("Light_Ent", NULL);
struct Transform* light_tran = entity_component_get(light_ent, C_TRANSFORM);
vec3 lt_pos = {x * 20, 0, z * 20};
transform_set_position(light_tran, &lt_pos);
struct Light* light_comp = entity_component_add(light_ent, C_LIGHT, LT_POINT);
vec3_fill(&light_comp->color, 1.f / (float)x, 1.f / ((rand() % 10) + 1.f), 1.f / (float)z);
light_comp->intensity = 1.f;
}
/* struct Entity* sun = scene_add_new("Sun", NULL); */
/* struct Light* sun_light = entity_component_add(sun, C_LIGHT, LT_DIR); */
/* sun_light->intensity = 0.8f; */
/* struct Hashmap* cvars = config_vars_get(); */
/* hashmap_int_set(cvars, "My_Int", 20); */
/* hashmap_str_set(cvars, "My_String", "This is my string"); */
/* hashmap_float_set(cvars, "Some_FLOAT", 42.222f); */
/* hashmap_double_set(cvars, "Some_Double", 99.999); */
/* hashmap_bool_set(cvars, "The_Truth", 0); */
/* char* key = NULL; */
/* struct Variant* value = NULL; */
/* char variant_str[256]; */
/* HASHMAP_FOREACH(cvars, key, value) */
/* { */
/* variant_to_str(value, variant_str, 256); */
/* log_message("VAL :(%s) : (%s)", key, variant_str); */
/* memset(variant_str, '\0', 256); */
/* } */
/* hashmap_float_set(cvars, "Some_FLOAT", 99.3f); */
/* hashmap_debug_print(cvars); */
/* log_message("The value of Some_FLOAT is : %f", hashmap_float_get(cvars, "Some_FLOAT")); */
/* } */
/* struct Variant variant; */
/* variant_from_str(&variant, "3.333333333333333333333", VT_DOUBLE); */
/* log_message("Variant val : %lf", variant.val_double); */
/* log_message("Variant type : %s", variant.type == VT_DOUBLE ? "expected" : "not what's expected"); */
}
void debug(float dt)
{
//struct Entity* entity = entity_get(player_node);
struct Entity* entity = entity_get(game_state->player_node);
struct Camera* cam = entity_component_get(entity, C_CAMERA);
camera_set_primary_viewer(cam);
struct Transform* transform = entity_component_get(entity, C_TRANSFORM);
float move_speed = 5.f, move_scale = 3.f, turn_speed = 50.f;
vec3 offset = {0, 0, 0};
float turn_up_down = 0.f;
float turn_left_right = 0.f;
float max_up_down = 60.f;
static float total_up_down_rot = 0.f;
vec3 rot_axis_up_down = {1, 0, 0};
vec3 rot_axis_left_right = {0, 1, 0};
/* Look around */
/* if(input_map_state_get("Turn_Up", KS_PRESSED)) turn_up_down += turn_speed; */
/* if(input_map_state_get("Turn_Down", KS_PRESSED)) turn_up_down -= turn_speed; */
/* if(input_map_state_get("Turn_Right", KS_PRESSED)) turn_left_right += turn_speed; */
/* if(input_map_state_get("Turn_Left", KS_PRESSED)) turn_left_right -= turn_speed; */
/* if(input_map_state_get("Recompute", KS_PRESSED)) */
/* { */
/* log_message("Regenerating Bounding Volumes"); */
/* geom_bounding_volume_generate_all(); */
/* } */
/* if(input_is_key_pressed(KEY_TAB, KS_PRESSED)) */
/* if(input_is_key_pressed(KEY_TAB, KS_PRESSED) && input_is_key_pressed(KEY_LSHIFT, KS_PRESSED)) input_mouse_mode_set(MM_NORMAL); */
if(input_mousebutton_state_get(MSB_RIGHT, KS_PRESSED))
{
if(input_mouse_mode_get() != MM_RELATIVE) input_mouse_mode_set(MM_RELATIVE);
const double scale = 0.25;
int cursor_lr, cursor_ud;
input_mouse_delta_get(&cursor_lr, &cursor_ud);
turn_up_down = -cursor_ud * turn_speed * dt * scale;
turn_left_right = cursor_lr * turn_speed * dt * scale;
input_mouse_pos_set(0.0, 0.0);
}
else
{
input_mouse_mode_set(MM_NORMAL);
turn_up_down *= dt;
turn_left_right *= dt;
}
total_up_down_rot += turn_up_down;
if(total_up_down_rot >= max_up_down)
{
total_up_down_rot = max_up_down;
turn_up_down = 0.f;
}
else if(total_up_down_rot <= -max_up_down)
{
total_up_down_rot = -max_up_down;
turn_up_down = 0.f;
}
if(turn_left_right != 0.f)
{
transform_rotate(transform, &rot_axis_left_right, -turn_left_right, TS_WORLD);
vec3 up = {0.f, 0.f, 0.f};
vec3 forward = {0.f, 0.f, 0.f};
vec3 lookat = {0.f, 0.f, 0.f};
transform_get_up(transform, &up);
transform_get_forward(transform, &forward);
transform_get_lookat(transform, &lookat);
/* log_message("Up : %s", tostr_vec3(&up)); */
/* log_message("FR : %s", tostr_vec3(&forward)); */
}
if(turn_up_down != 0.f)
{
transform_rotate(transform, &rot_axis_up_down, turn_up_down, TS_LOCAL);
vec3 up = {0.f, 0.f, 0.f};
vec3 forward = {0.f, 0.f, 0.f};
vec3 lookat = {0.f, 0.f, 0.f};
transform_get_up(transform, &up);
transform_get_forward(transform, &forward);
transform_get_lookat(transform, &lookat);
/* log_message("Up : %s", tostr_vec3(&up)); */
/* log_message("FR : %s", tostr_vec3(&forward)); */
}
/* Movement */
/* if(input_map_state_get("Sprint", KS_PRESSED)) move_speed *= move_scale; */
if(input_map_state_get("Move_Forward", KS_PRESSED)) offset.z -= move_speed;
if(input_map_state_get("Move_Backward", KS_PRESSED)) offset.z += move_speed;
/* if(input_map_state_get("Move_Left", KS_PRESSED)) offset.x -= move_speed; */
/* if(input_map_state_get("Move_Right", KS_PRESSED)) offset.x += move_speed; */
/* if(input_map_state_get("Move_Up", KS_PRESSED)) offset.y += move_speed; */
/* if(input_map_state_get("Move_Down", KS_PRESSED)) offset.y -= move_speed; */
vec3_scale(&offset, &offset, dt);
if(offset.x != 0 || offset.y != 0 || offset.z != 0)
{
transform_translate(transform, &offset, TS_LOCAL);
//log_message("Position : %s", tostr_vec3(&transform->position));
}
if(input_is_key_pressed(KEY_SPACE))
{
struct Entity* model = scene_find("Model_Entity");
struct Transform* mod_tran = entity_component_get(model, C_TRANSFORM);
vec3 x_axis = {1, 0, 0};
transform_rotate(mod_tran, &x_axis, 25.f * dt, TS_WORLD);
}
if(input_is_key_pressed(KEY_M))
{
struct Entity* model = scene_find("Model_Entity");
struct Transform* mod_tran = entity_component_get(model, C_TRANSFORM);
//vec3 y_axis = {0, 0, 1};
//transform_rotate(mod_tran, &y_axis, 25.f * dt, TS_LOCAL);
vec3 amount = {0, 0, -5 * dt};
transform_translate(mod_tran, &amount, TS_LOCAL);
}
if(input_is_key_pressed(KEY_N))
{
struct Entity* model = scene_find("Model_Entity");
struct Transform* mod_tran = entity_component_get(model, C_TRANSFORM);
/* vec3 y_axis = {0, 0, 1}; */
/* transform_rotate(mod_tran, &y_axis, 25.f * dt, TS_WORLD); */
vec3 amount = {0, 0, 5 * dt};
transform_translate(mod_tran, &amount, TS_LOCAL);
}
/* if(input_is_key_pressed(GLFW_KEY_C, KS_PRESSED)) */
/* { */
/* struct Entity* cam_ent = scene_find("Screen_Camera"); */
/* struct Camera* cam = entity_component_get(cam_ent, C_CAMERA); */
/* camera_set_primary_viewer(cam); */
/* } */
/* if(input_is_key_pressed(GLFW_KEY_V, KS_PRESSED)) */
/* { */
/* struct Camera* cam = entity_component_get(entity, C_CAMERA); */
/* camera_set_priimary_viewer(cam); */
/* } */
}
int run(void)
{
uint32 last_time = platform_ticks_get();
int should_window_close = 0;
while(!should_window_close)
{
uint32 curr_time = platform_ticks_get();
float delta_time = (float)(curr_time - last_time) / 1000.f;
last_time = curr_time;
if(delta_time > MAX_FRAME_TIME) delta_time = (1.f / 60.f); /* To deal with resuming from breakpoint we artificially set delta time */
gui_input_begin();
platform_poll_events(&should_window_close);
gui_input_end();
update(delta_time, &should_window_close);
render();
window_swap_buffers(game_state->window);
}
return 1;
}
void update(float dt, int* window_should_close)
{
if(input_is_key_pressed(KEY_ESCAPE)) *window_should_close = 1;
/* if(input_map_state_get("Editor_Toggle", KS_RELEASED)) editor_toggle(); */
/* if(input_map_state_get("Window_Fullscreen", KS_RELEASED)) window_fullscreen_set(game_state->window, 1); */
/* if(input_map_state_get("Window_Maximize", KS_RELEASED)) window_fullscreen_set(game_state->window, 0); */
debug(dt);
debug_gui(dt);
editor_update(dt);
input_update(); /* This should always be the last thing. Probably
* put this in post update? */
}
void debug_gui(float dt)
{
struct Gui_State* gui_state = gui_state_get();
struct nk_context* ctx = &gui_state->context;
/* window flags */
static int show_menu = nk_true;
static int titlebar = nk_true;
static int border = nk_true;
static int resize = nk_true;
static int movable = nk_true;
static int no_scrollbar = nk_false;
static int scale_left = nk_false;
static nk_flags window_flags = 0;
static int minimizable = nk_true;
/* popups */
static enum nk_style_header_align header_align = NK_HEADER_RIGHT;
static int show_app_about = nk_false;
/* window flags */
window_flags = 0;
ctx->style.window.header.align = header_align;
if (border) window_flags |= NK_WINDOW_BORDER;
if (resize) window_flags |= NK_WINDOW_SCALABLE;
if (movable) window_flags |= NK_WINDOW_MOVABLE;
if (no_scrollbar) window_flags |= NK_WINDOW_NO_SCROLLBAR;
if (scale_left) window_flags |= NK_WINDOW_SCALE_LEFT;
if (minimizable) window_flags |= NK_WINDOW_MINIMIZABLE;
if (nk_begin(ctx, "Overview", nk_rect(70, 70, 400, 600), window_flags))
{
if (show_menu)
{
/* menubar */
enum menu_states {MENU_DEFAULT, MENU_WINDOWS};
static nk_size mprog = 60;
static int mslider = 10;
static int mcheck = nk_true;
nk_menubar_begin(ctx);
nk_layout_row_begin(ctx, NK_STATIC, 25, 4);
nk_layout_row_push(ctx, 45);
if (nk_menu_begin_label(ctx, "MENU", NK_TEXT_LEFT, nk_vec2(120, 200)))
{
static size_t prog = 40;
static int slider = 10;
static int check = nk_true;
nk_layout_row_dynamic(ctx, 25, 1);
if (nk_menu_item_label(ctx, "Hide", NK_TEXT_LEFT))
show_menu = nk_false;
if (nk_menu_item_label(ctx, "About", NK_TEXT_LEFT))
show_app_about = nk_true;
nk_progress(ctx, &prog, 100, NK_MODIFIABLE);
nk_slider_int(ctx, 0, &slider, 16, 1);
nk_checkbox_label(ctx, "check", &check);
nk_menu_end(ctx);
}
nk_layout_row_push(ctx, 70);
nk_progress(ctx, &mprog, 100, NK_MODIFIABLE);
nk_slider_int(ctx, 0, &mslider, 16, 1);
nk_checkbox_label(ctx, "check", &mcheck);
nk_menubar_end(ctx);
}
if (show_app_about)
{
/* about popup */
static struct nk_rect s = {20, 100, 300, 190};
if (nk_popup_begin(ctx, NK_POPUP_STATIC, "About", NK_WINDOW_CLOSABLE, s))
{
nk_layout_row_dynamic(ctx, 20, 1);
nk_label(ctx, "Nuklear", NK_TEXT_LEFT);
nk_label(ctx, "By Micha Mettke", NK_TEXT_LEFT);
nk_label(ctx, "nuklear is licensed under the public domain License.", NK_TEXT_LEFT);
nk_popup_end(ctx);
} else show_app_about = nk_false;
}
/* window flags */
if (nk_tree_push(ctx, NK_TREE_TAB, "Window", NK_MINIMIZED)) {
nk_layout_row_dynamic(ctx, 30, 2);
nk_checkbox_label(ctx, "Titlebar", &titlebar);
nk_checkbox_label(ctx, "Menu", &show_menu);
nk_checkbox_label(ctx, "Border", &border);
nk_checkbox_label(ctx, "Resizable", &resize);
nk_checkbox_label(ctx, "Movable", &movable);
nk_checkbox_label(ctx, "No Scrollbar", &no_scrollbar);
nk_checkbox_label(ctx, "Minimizable", &minimizable);
nk_checkbox_label(ctx, "Scale Left", &scale_left);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_TAB, "Widgets", NK_MINIMIZED))
{
enum options {A,B,C};
static int checkbox;
static int option;
if (nk_tree_push(ctx, NK_TREE_NODE, "Text", NK_MINIMIZED))
{
/* Text Widgets */
nk_layout_row_dynamic(ctx, 20, 1);
nk_label(ctx, "Label aligned left", NK_TEXT_LEFT);
nk_label(ctx, "Label aligned centered", NK_TEXT_CENTERED);
nk_label(ctx, "Label aligned right", NK_TEXT_RIGHT);
nk_label_colored(ctx, "Blue text", NK_TEXT_LEFT, nk_rgb(0,0,255));
nk_label_colored(ctx, "Yellow text", NK_TEXT_LEFT, nk_rgb(255,255,0));
nk_text(ctx, "Text without /0", 15, NK_TEXT_RIGHT);
nk_layout_row_static(ctx, 100, 200, 1);
nk_label_wrap(ctx, "This is a very long line to hopefully get this text to be wrapped into multiple lines to show line wrapping");
nk_layout_row_dynamic(ctx, 100, 1);
nk_label_wrap(ctx, "This is another long text to show dynamic window changes on multiline text");
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Button", NK_MINIMIZED))
{
/* Buttons Widgets */
nk_layout_row_static(ctx, 30, 100, 3);
if (nk_button_label(ctx, "Button"))
fprintf(stdout, "Button pressed!\n");
nk_button_set_behavior(ctx, NK_BUTTON_REPEATER);
if (nk_button_label(ctx, "Repeater"))
fprintf(stdout, "Repeater is being pressed!\n");
nk_button_set_behavior(ctx, NK_BUTTON_DEFAULT);
nk_button_color(ctx, nk_rgb(0,0,255));
nk_layout_row_static(ctx, 25, 25, 8);
nk_button_symbol(ctx, NK_SYMBOL_CIRCLE_SOLID);
nk_button_symbol(ctx, NK_SYMBOL_CIRCLE_OUTLINE);
nk_button_symbol(ctx, NK_SYMBOL_RECT_SOLID);
nk_button_symbol(ctx, NK_SYMBOL_RECT_OUTLINE);
nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_UP);
nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_DOWN);
nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_LEFT);
nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_RIGHT);
nk_layout_row_static(ctx, 30, 100, 2);
nk_button_symbol_label(ctx, NK_SYMBOL_TRIANGLE_LEFT, "prev", NK_TEXT_RIGHT);
nk_button_symbol_label(ctx, NK_SYMBOL_TRIANGLE_RIGHT, "next", NK_TEXT_LEFT);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Basic", NK_MINIMIZED))
{
/* Basic widgets */
static int int_slider = 5;
static float float_slider = 2.5f;
static size_t prog_value = 40;
static float property_float = 2;
static int property_int = 10;
static int property_neg = 10;
static float range_float_min = 0;
static float range_float_max = 100;
static float range_float_value = 50;
static int range_int_min = 0;
static int range_int_value = 2048;
static int range_int_max = 4096;
static const float ratio[] = {120, 150};
nk_layout_row_static(ctx, 30, 100, 1);
nk_checkbox_label(ctx, "Checkbox", &checkbox);
nk_layout_row_static(ctx, 30, 80, 3);
option = nk_option_label(ctx, "optionA", option == A) ? A : option;
option = nk_option_label(ctx, "optionB", option == B) ? B : option;
option = nk_option_label(ctx, "optionC", option == C) ? C : option;
nk_layout_row(ctx, NK_STATIC, 30, 2, ratio);
nk_labelf(ctx, NK_TEXT_LEFT, "Slider int");
nk_slider_int(ctx, 0, &int_slider, 10, 1);
nk_label(ctx, "Slider float", NK_TEXT_LEFT);
nk_slider_float(ctx, 0, &float_slider, 5.0, 0.5f);
nk_labelf(ctx, NK_TEXT_LEFT, "Progressbar" , prog_value);
nk_progress(ctx, &prog_value, 100, NK_MODIFIABLE);
nk_layout_row(ctx, NK_STATIC, 25, 2, ratio);
nk_label(ctx, "Property float:", NK_TEXT_LEFT);
nk_property_float(ctx, "Float:", 0, &property_float, 64.0f, 0.1f, 0.2f);
nk_label(ctx, "Property int:", NK_TEXT_LEFT);
nk_property_int(ctx, "Int:", 0, &property_int, 100.0f, 1, 1);
nk_label(ctx, "Property neg:", NK_TEXT_LEFT);
nk_property_int(ctx, "Neg:", -10, &property_neg, 10, 1, 1);
nk_layout_row_dynamic(ctx, 25, 1);
nk_label(ctx, "Range:", NK_TEXT_LEFT);
nk_layout_row_dynamic(ctx, 25, 3);
nk_property_float(ctx, "#min:", 0, &range_float_min, range_float_max, 1.0f, 0.2f);
nk_property_float(ctx, "#float:", range_float_min, &range_float_value, range_float_max, 1.0f, 0.2f);
nk_property_float(ctx, "#max:", range_float_min, &range_float_max, 100, 1.0f, 0.2f);
nk_property_int(ctx, "#min:", INT_MIN, &range_int_min, range_int_max, 1, 10);
nk_property_int(ctx, "#neg:", range_int_min, &range_int_value, range_int_max, 1, 10);
nk_property_int(ctx, "#max:", range_int_min, &range_int_max, INT_MAX, 1, 10);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Selectable", NK_MINIMIZED))
{
if (nk_tree_push(ctx, NK_TREE_NODE, "List", NK_MINIMIZED))
{
static int selected[4] = {nk_false, nk_false, nk_true, nk_false};
nk_layout_row_static(ctx, 18, 100, 1);
nk_selectable_label(ctx, "Selectable", NK_TEXT_LEFT, &selected[0]);
nk_selectable_label(ctx, "Selectable", NK_TEXT_LEFT, &selected[1]);
nk_label(ctx, "Not Selectable", NK_TEXT_LEFT);
nk_selectable_label(ctx, "Selectable", NK_TEXT_LEFT, &selected[2]);
nk_selectable_label(ctx, "Selectable", NK_TEXT_LEFT, &selected[3]);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Grid", NK_MINIMIZED))
{
int i;
static int selected[16] = {1,0,0,0, 0,1,0,0, 0,0,1,0, 0,0,0,1};
nk_layout_row_static(ctx, 50, 50, 4);
for (i = 0; i < 16; ++i) {
if (nk_selectable_label(ctx, "Z", NK_TEXT_CENTERED, &selected[i])) {
int x = (i % 4), y = i / 4;
if (x > 0) selected[i - 1] ^= 1;
if (x < 3) selected[i + 1] ^= 1;
if (y > 0) selected[i - 4] ^= 1;
if (y < 3) selected[i + 4] ^= 1;
}
}
nk_tree_pop(ctx);
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Combo", NK_MINIMIZED))
{
/* Combobox Widgets
* In this library comboboxes are not limited to being a popup
* list of selectable text. Instead it is a abstract concept of
* having something that is *selected* or displayed, a popup window
* which opens if something needs to be modified and the content
* of the popup which causes the *selected* or displayed value to
* change or if wanted close the combobox.
*
* While strange at first handling comboboxes in a abstract way
* solves the problem of overloaded window content. For example
* changing a color value requires 4 value modifier (slider, property,...)
* for RGBA then you need a label and ways to display the current color.
* If you want to go fancy you even add rgb and hsv ratio boxes.
* While fine for one color if you have a lot of them it because
* tedious to look at and quite wasteful in space. You could add
* a popup which modifies the color but this does not solve the
* fact that it still requires a lot of cluttered space to do.
*
* In these kind of instance abstract comboboxes are quite handy. All
* value modifiers are hidden inside the combobox popup and only
* the color is shown if not open. This combines the clarity of the
* popup with the ease of use of just using the space for modifiers.
*
* Other instances are for example time and especially date picker,
* which only show the currently activated time/data and hide the
* selection logic inside the combobox popup.
*/
static float chart_selection = 8.0f;
static int current_weapon = 0;
static int check_values[5];
static float position[3];
static struct nk_color combo_color = {130, 50, 50, 255};
static struct nk_color combo_color2 = {130, 180, 50, 255};
static size_t prog_a = 20, prog_b = 40, prog_c = 10, prog_d = 90;
static const char *weapons[] = {"Fist","Pistol","Shotgun","Plasma","BFG"};
char buffer[64];
size_t sum = 0;
/* default combobox */
nk_layout_row_static(ctx, 25, 200, 1);
current_weapon = nk_combo(ctx, weapons, LEN(weapons), current_weapon, 25, nk_vec2(200,200));
/* slider color combobox */
if (nk_combo_begin_color(ctx, combo_color, nk_vec2(200,200))) {
float ratios[] = {0.15f, 0.85f};
nk_layout_row(ctx, NK_DYNAMIC, 30, 2, ratios);
nk_label(ctx, "R:", NK_TEXT_LEFT);
combo_color.r = (nk_byte)nk_slide_int(ctx, 0, combo_color.r, 255, 5);
nk_label(ctx, "G:", NK_TEXT_LEFT);
combo_color.g = (nk_byte)nk_slide_int(ctx, 0, combo_color.g, 255, 5);
nk_label(ctx, "B:", NK_TEXT_LEFT);
combo_color.b = (nk_byte)nk_slide_int(ctx, 0, combo_color.b, 255, 5);
nk_label(ctx, "A:", NK_TEXT_LEFT);
combo_color.a = (nk_byte)nk_slide_int(ctx, 0, combo_color.a , 255, 5);
nk_combo_end(ctx);
}
/* complex color combobox */
if (nk_combo_begin_color(ctx, combo_color2, nk_vec2(200,400))) {
enum color_mode {COL_RGB, COL_HSV};
static int col_mode = COL_RGB;
#ifndef DEMO_DO_NOT_USE_COLOR_PICKER
nk_layout_row_dynamic(ctx, 120, 1);
combo_color2 = nk_color_picker(ctx, combo_color2, NK_RGBA);
#endif
nk_layout_row_dynamic(ctx, 25, 2);
col_mode = nk_option_label(ctx, "RGB", col_mode == COL_RGB) ? COL_RGB : col_mode;
col_mode = nk_option_label(ctx, "HSV", col_mode == COL_HSV) ? COL_HSV : col_mode;
nk_layout_row_dynamic(ctx, 25, 1);
if (col_mode == COL_RGB) {
combo_color2.r = (nk_byte)nk_propertyi(ctx, "#R:", 0, combo_color2.r, 255, 1,1);
combo_color2.g = (nk_byte)nk_propertyi(ctx, "#G:", 0, combo_color2.g, 255, 1,1);
combo_color2.b = (nk_byte)nk_propertyi(ctx, "#B:", 0, combo_color2.b, 255, 1,1);
combo_color2.a = (nk_byte)nk_propertyi(ctx, "#A:", 0, combo_color2.a, 255, 1,1);
} else {
nk_byte tmp[4];
nk_color_hsva_bv(tmp, combo_color2);
tmp[0] = (nk_byte)nk_propertyi(ctx, "#H:", 0, tmp[0], 255, 1,1);
tmp[1] = (nk_byte)nk_propertyi(ctx, "#S:", 0, tmp[1], 255, 1,1);
tmp[2] = (nk_byte)nk_propertyi(ctx, "#V:", 0, tmp[2], 255, 1,1);
tmp[3] = (nk_byte)nk_propertyi(ctx, "#A:", 0, tmp[3], 255, 1,1);
combo_color2 = nk_hsva_bv(tmp);
}
nk_combo_end(ctx);
}
/* progressbar combobox */
sum = prog_a + prog_b + prog_c + prog_d;
sprintf(buffer, "%lu", sum);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(200,200))) {
nk_layout_row_dynamic(ctx, 30, 1);
nk_progress(ctx, &prog_a, 100, NK_MODIFIABLE);
nk_progress(ctx, &prog_b, 100, NK_MODIFIABLE);
nk_progress(ctx, &prog_c, 100, NK_MODIFIABLE);
nk_progress(ctx, &prog_d, 100, NK_MODIFIABLE);
nk_combo_end(ctx);
}
/* checkbox combobox */
sum = (size_t)(check_values[0] + check_values[1] + check_values[2] + check_values[3] + check_values[4]);
sprintf(buffer, "%lu", sum);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(200,200))) {
nk_layout_row_dynamic(ctx, 30, 1);
nk_checkbox_label(ctx, weapons[0], &check_values[0]);
nk_checkbox_label(ctx, weapons[1], &check_values[1]);
nk_checkbox_label(ctx, weapons[2], &check_values[2]);
nk_checkbox_label(ctx, weapons[3], &check_values[3]);
nk_combo_end(ctx);
}
/* complex text combobox */
sprintf(buffer, "%.2f, %.2f, %.2f", position[0], position[1],position[2]);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(200,200))) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_property_float(ctx, "#X:", -1024.0f, &position[0], 1024.0f, 1,0.5f);
nk_property_float(ctx, "#Y:", -1024.0f, &position[1], 1024.0f, 1,0.5f);
nk_property_float(ctx, "#Z:", -1024.0f, &position[2], 1024.0f, 1,0.5f);
nk_combo_end(ctx);
}
/* chart combobox */
sprintf(buffer, "%.1f", chart_selection);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(200,250))) {
size_t i = 0;
static const float values[]={26.0f,13.0f,30.0f,15.0f,25.0f,10.0f,20.0f,40.0f, 12.0f, 8.0f, 22.0f, 28.0f, 5.0f};
nk_layout_row_dynamic(ctx, 150, 1);
nk_chart_begin(ctx, NK_CHART_COLUMN, LEN(values), 0, 50);
for (i = 0; i < LEN(values); ++i) {
nk_flags res = nk_chart_push(ctx, values[i]);
if (res & NK_CHART_CLICKED) {
chart_selection = values[i];
nk_combo_close(ctx);
}
}
nk_chart_end(ctx);
nk_combo_end(ctx);
}
{
static int time_selected = 0;
static int date_selected = 0;
static struct tm sel_time;
static struct tm sel_date;
if (!time_selected || !date_selected) {
/* keep time and date updated if nothing is selected */
time_t cur_time = time(0);
struct tm *n = localtime(&cur_time);
if (!time_selected)
memcpy(&sel_time, n, sizeof(struct tm));
if (!date_selected)
memcpy(&sel_date, n, sizeof(struct tm));
}
/* time combobox */
sprintf(buffer, "%02d:%02d:%02d", sel_time.tm_hour, sel_time.tm_min, sel_time.tm_sec);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(200,250))) {
time_selected = 1;
nk_layout_row_dynamic(ctx, 25, 1);
sel_time.tm_sec = nk_propertyi(ctx, "#S:", 0, sel_time.tm_sec, 60, 1, 1);
sel_time.tm_min = nk_propertyi(ctx, "#M:", 0, sel_time.tm_min, 60, 1, 1);
sel_time.tm_hour = nk_propertyi(ctx, "#H:", 0, sel_time.tm_hour, 23, 1, 1);
nk_combo_end(ctx);
}
/* date combobox */
sprintf(buffer, "%02d-%02d-%02d", sel_date.tm_mday, sel_date.tm_mon+1, sel_date.tm_year+1900);
if (nk_combo_begin_label(ctx, buffer, nk_vec2(350,400)))
{
int i = 0;
const char *month[] = {"January", "February", "March", "Apil", "May", "June", "July", "August", "September", "Ocotober", "November", "December"};
const char *week_days[] = {"SUN", "MON", "TUE", "WED", "THU", "FRI", "SAT"};
const int month_days[] = {31,28,31,30,31,30,31,31,30,31,30,31};
int year = sel_date.tm_year+1900;
int leap_year = (!(year % 4) && ((year % 100))) || !(year % 400);
int days = (sel_date.tm_mon == 1) ?
month_days[sel_date.tm_mon] + leap_year:
month_days[sel_date.tm_mon];
/* header with month and year */
date_selected = 1;
nk_layout_row_begin(ctx, NK_DYNAMIC, 20, 3);
nk_layout_row_push(ctx, 0.05f);
if (nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_LEFT)) {
if (sel_date.tm_mon == 0) {
sel_date.tm_mon = 11;
sel_date.tm_year = MAX(0, sel_date.tm_year-1);
} else sel_date.tm_mon--;
}
nk_layout_row_push(ctx, 0.9f);
sprintf(buffer, "%s %d", month[sel_date.tm_mon], year);
nk_label(ctx, buffer, NK_TEXT_CENTERED);
nk_layout_row_push(ctx, 0.05f);
if (nk_button_symbol(ctx, NK_SYMBOL_TRIANGLE_RIGHT)) {
if (sel_date.tm_mon == 11) {
sel_date.tm_mon = 0;
sel_date.tm_year++;
} else sel_date.tm_mon++;
}
nk_layout_row_end(ctx);
/* good old week day formula (double because precision) */
{int year_n = (sel_date.tm_mon < 2) ? year-1: year;
int y = year_n % 100;
int c = year_n / 100;
int y4 = (int)((float)y / 4);
int c4 = (int)((float)c / 4);
int m = (int)(2.6 * (double)(((sel_date.tm_mon + 10) % 12) + 1) - 0.2);
int week_day = (((1 + m + y + y4 + c4 - 2 * c) % 7) + 7) % 7;
/* weekdays */
nk_layout_row_dynamic(ctx, 35, 7);
for (i = 0; i < (int)LEN(week_days); ++i)
nk_label(ctx, week_days[i], NK_TEXT_CENTERED);
/* days */
if (week_day > 0) nk_spacing(ctx, week_day);
for (i = 1; i <= days; ++i) {
sprintf(buffer, "%d", i);
if (nk_button_label(ctx, buffer)) {
sel_date.tm_mday = i;
nk_combo_close(ctx);
}
}}
nk_combo_end(ctx);
}
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Input", NK_MINIMIZED))
{
static const float ratio[] = {120, 150};
static char field_buffer[64];
static char text[9][64];
static int text_len[9];
static char box_buffer[512];
static int field_len;
static int box_len;
nk_flags active;
nk_layout_row(ctx, NK_STATIC, 25, 2, ratio);
nk_label(ctx, "Default:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[0], &text_len[0], 64, nk_filter_default);
nk_label(ctx, "Int:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[1], &text_len[1], 64, nk_filter_decimal);
nk_label(ctx, "Float:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[2], &text_len[2], 64, nk_filter_float);
nk_label(ctx, "Hex:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[4], &text_len[4], 64, nk_filter_hex);
nk_label(ctx, "Octal:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[5], &text_len[5], 64, nk_filter_oct);
nk_label(ctx, "Binary:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_SIMPLE, text[6], &text_len[6], 64, nk_filter_binary);
nk_label(ctx, "Password:", NK_TEXT_LEFT);
{
int i = 0;
int old_len = text_len[8];
char buffer[64];
for (i = 0; i < text_len[8]; ++i) buffer[i] = '*';
nk_edit_string(ctx, NK_EDIT_FIELD, buffer, &text_len[8], 64, nk_filter_default);
if (old_len < text_len[8])
memcpy(&text[8][old_len], &buffer[old_len], (nk_size)(text_len[8] - old_len));
}
nk_label(ctx, "Field:", NK_TEXT_LEFT);
nk_edit_string(ctx, NK_EDIT_FIELD, field_buffer, &field_len, 64, nk_filter_default);
nk_label(ctx, "Box:", NK_TEXT_LEFT);
nk_layout_row_static(ctx, 180, 278, 1);
nk_edit_string(ctx, NK_EDIT_BOX, box_buffer, &box_len, 512, nk_filter_default);
nk_layout_row(ctx, NK_STATIC, 25, 2, ratio);
active = nk_edit_string(ctx, NK_EDIT_FIELD|NK_EDIT_SIG_ENTER, text[7], &text_len[7], 64, nk_filter_ascii);
if (nk_button_label(ctx, "Submit") ||
(active & NK_EDIT_COMMITED))
{
text[7][text_len[7]] = '\n';
text_len[7]++;
memcpy(&box_buffer[box_len], &text[7], (nk_size)text_len[7]);
box_len += text_len[7];
text_len[7] = 0;
}
nk_tree_pop(ctx);
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_TAB, "Chart", NK_MINIMIZED))
{
/* Chart Widgets
* This library has two different rather simple charts. The line and the
* column chart. Both provide a simple way of visualizing values and
* have a retained mode and immediate mode API version. For the retain
* mode version `nk_plot` and `nk_plot_function` you either provide
* an array or a callback to call to handle drawing the graph.
* For the immediate mode version you start by calling `nk_chart_begin`
* and need to provide min and max values for scaling on the Y-axis.
* and then call `nk_chart_push` to push values into the chart.
* Finally `nk_chart_end` needs to be called to end the process. */
float id = 0;
static int col_index = -1;
static int line_index = -1;
float step = (2*3.141592654f) / 32;
int i;
int index = -1;
struct nk_rect bounds;
/* line chart */
id = 0;
index = -1;
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin(ctx, NK_CHART_LINES, 32, -1.0f, 1.0f)) {
for (i = 0; i < 32; ++i) {
nk_flags res = nk_chart_push(ctx, (float)cos(id));
if (res & NK_CHART_HOVERING)
index = (int)i;
if (res & NK_CHART_CLICKED)
line_index = (int)i;
id += step;
}
nk_chart_end(ctx);
}
if (index != -1) {
char buffer[NK_MAX_NUMBER_BUFFER];
float val = (float)cos((float)index*step);
sprintf(buffer, "Value: %.2f", val);
nk_tooltip(ctx, buffer);
}
if (line_index != -1) {
nk_layout_row_dynamic(ctx, 20, 1);
nk_labelf(ctx, NK_TEXT_LEFT, "Selected value: %.2f", (float)cos((float)index*step));
}
/* column chart */
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin(ctx, NK_CHART_COLUMN, 32, 0.0f, 1.0f)) {
for (i = 0; i < 32; ++i) {
nk_flags res = nk_chart_push(ctx, (float)fabs(sin(id)));
if (res & NK_CHART_HOVERING)
index = (int)i;
if (res & NK_CHART_CLICKED)
col_index = (int)i;
id += step;
}
nk_chart_end(ctx);
}
if (index != -1) {
char buffer[NK_MAX_NUMBER_BUFFER];
sprintf(buffer, "Value: %.2f", (float)fabs(sin(step * (float)index)));
nk_tooltip(ctx, buffer);
}
if (col_index != -1) {
nk_layout_row_dynamic(ctx, 20, 1);
nk_labelf(ctx, NK_TEXT_LEFT, "Selected value: %.2f", (float)fabs(sin(step * (float)col_index)));
}
/* mixed chart */
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin(ctx, NK_CHART_COLUMN, 32, 0.0f, 1.0f)) {
nk_chart_add_slot(ctx, NK_CHART_LINES, 32, -1.0f, 1.0f);
nk_chart_add_slot(ctx, NK_CHART_LINES, 32, -1.0f, 1.0f);
for (id = 0, i = 0; i < 32; ++i) {
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 0);
nk_chart_push_slot(ctx, (float)cos(id), 1);
nk_chart_push_slot(ctx, (float)sin(id), 2);
id += step;
}
}
nk_chart_end(ctx);
/* mixed colored chart */
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin_colored(ctx, NK_CHART_LINES, nk_rgb(255,0,0), nk_rgb(150,0,0), 32, 0.0f, 1.0f)) {
nk_chart_add_slot_colored(ctx, NK_CHART_LINES, nk_rgb(0,0,255), nk_rgb(0,0,150),32, -1.0f, 1.0f);
nk_chart_add_slot_colored(ctx, NK_CHART_LINES, nk_rgb(0,255,0), nk_rgb(0,150,0), 32, -1.0f, 1.0f);
for (id = 0, i = 0; i < 32; ++i) {
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 0);
nk_chart_push_slot(ctx, (float)cos(id), 1);
nk_chart_push_slot(ctx, (float)sin(id), 2);
id += step;
}
}
nk_chart_end(ctx);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_TAB, "Popup", NK_MINIMIZED))
{
static struct nk_color color = {255,0,0, 255};
static int select[4];
static int popup_active;
const struct nk_input *in = &ctx->input;
struct nk_rect bounds;
/* menu contextual */
nk_layout_row_static(ctx, 30, 150, 1);
bounds = nk_widget_bounds(ctx);
nk_label(ctx, "Right click me for menu", NK_TEXT_LEFT);
if (nk_contextual_begin(ctx, 0, nk_vec2(100, 300), bounds)) {
static size_t prog = 40;
static int slider = 10;
nk_layout_row_dynamic(ctx, 25, 1);
nk_checkbox_label(ctx, "Menu", &show_menu);
nk_progress(ctx, &prog, 100, NK_MODIFIABLE);
nk_slider_int(ctx, 0, &slider, 16, 1);
if (nk_contextual_item_label(ctx, "About", NK_TEXT_CENTERED))
show_app_about = nk_true;
nk_selectable_label(ctx, select[0]?"Unselect":"Select", NK_TEXT_LEFT, &select[0]);
nk_selectable_label(ctx, select[1]?"Unselect":"Select", NK_TEXT_LEFT, &select[1]);
nk_selectable_label(ctx, select[2]?"Unselect":"Select", NK_TEXT_LEFT, &select[2]);
nk_selectable_label(ctx, select[3]?"Unselect":"Select", NK_TEXT_LEFT, &select[3]);
nk_contextual_end(ctx);
}
/* color contextual */
nk_layout_row_begin(ctx, NK_STATIC, 30, 2);
nk_layout_row_push(ctx, 100);
nk_label(ctx, "Right Click here:", NK_TEXT_LEFT);
nk_layout_row_push(ctx, 50);
bounds = nk_widget_bounds(ctx);
nk_button_color(ctx, color);
nk_layout_row_end(ctx);
if (nk_contextual_begin(ctx, 0, nk_vec2(350, 60), bounds)) {
nk_layout_row_dynamic(ctx, 30, 4);
color.r = (nk_byte)nk_propertyi(ctx, "#r", 0, color.r, 255, 1, 1);
color.g = (nk_byte)nk_propertyi(ctx, "#g", 0, color.g, 255, 1, 1);
color.b = (nk_byte)nk_propertyi(ctx, "#b", 0, color.b, 255, 1, 1);
color.a = (nk_byte)nk_propertyi(ctx, "#a", 0, color.a, 255, 1, 1);
nk_contextual_end(ctx);
}
/* popup */
nk_layout_row_begin(ctx, NK_STATIC, 30, 2);
nk_layout_row_push(ctx, 100);
nk_label(ctx, "Popup:", NK_TEXT_LEFT);
nk_layout_row_push(ctx, 50);
if (nk_button_label(ctx, "Popup"))
popup_active = 1;
nk_layout_row_end(ctx);
if (popup_active)
{
static struct nk_rect s = {20, 100, 220, 90};
if (nk_popup_begin(ctx, NK_POPUP_STATIC, "Error", 0, s))
{
nk_layout_row_dynamic(ctx, 25, 1);
nk_label(ctx, "A terrible error as occured", NK_TEXT_LEFT);
nk_layout_row_dynamic(ctx, 25, 2);
if (nk_button_label(ctx, "OK")) {
popup_active = 0;
nk_popup_close(ctx);
}
if (nk_button_label(ctx, "Cancel")) {
popup_active = 0;
nk_popup_close(ctx);
}
nk_popup_end(ctx);
} else popup_active = nk_false;
}
/* tooltip */
nk_layout_row_static(ctx, 30, 150, 1);
bounds = nk_widget_bounds(ctx);
nk_label(ctx, "Hover me for tooltip", NK_TEXT_LEFT);
if (nk_input_is_mouse_hovering_rect(in, bounds))
nk_tooltip(ctx, "This is a tooltip");
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_TAB, "Layout", NK_MINIMIZED))
{
if (nk_tree_push(ctx, NK_TREE_NODE, "Widget", NK_MINIMIZED))
{
float ratio_two[] = {0.2f, 0.6f, 0.2f};
float width_two[] = {100, 200, 50};
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Dynamic fixed column layout with generated position and size:", NK_TEXT_LEFT);
nk_layout_row_dynamic(ctx, 30, 3);
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "static fixed column layout with generated position and size:", NK_TEXT_LEFT);
nk_layout_row_static(ctx, 30, 100, 3);
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Dynamic array-based custom column layout with generated position and custom size:",NK_TEXT_LEFT);
nk_layout_row(ctx, NK_DYNAMIC, 30, 3, ratio_two);
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Static array-based custom column layout with generated position and custom size:",NK_TEXT_LEFT );
nk_layout_row(ctx, NK_STATIC, 30, 3, width_two);
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Dynamic immediate mode custom column layout with generated position and custom size:",NK_TEXT_LEFT);
nk_layout_row_begin(ctx, NK_DYNAMIC, 30, 3);
nk_layout_row_push(ctx, 0.2f);
nk_button_label(ctx, "button");
nk_layout_row_push(ctx, 0.6f);
nk_button_label(ctx, "button");
nk_layout_row_push(ctx, 0.2f);
nk_button_label(ctx, "button");
nk_layout_row_end(ctx);
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Static immediate mode custom column layout with generated position and custom size:", NK_TEXT_LEFT);
nk_layout_row_begin(ctx, NK_STATIC, 30, 3);
nk_layout_row_push(ctx, 100);
nk_button_label(ctx, "button");
nk_layout_row_push(ctx, 200);
nk_button_label(ctx, "button");
nk_layout_row_push(ctx, 50);
nk_button_label(ctx, "button");
nk_layout_row_end(ctx);
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Static free space with custom position and custom size:", NK_TEXT_LEFT);
nk_layout_space_begin(ctx, NK_STATIC, 60, 4);
nk_layout_space_push(ctx, nk_rect(100, 0, 100, 30));
nk_button_label(ctx, "button");
nk_layout_space_push(ctx, nk_rect(0, 15, 100, 30));
nk_button_label(ctx, "button");
nk_layout_space_push(ctx, nk_rect(200, 15, 100, 30));
nk_button_label(ctx, "button");
nk_layout_space_push(ctx, nk_rect(100, 30, 100, 30));
nk_button_label(ctx, "button");
nk_layout_space_end(ctx);
nk_layout_row_dynamic(ctx, 30, 1);
nk_label(ctx, "Row template:", NK_TEXT_LEFT);
nk_layout_row_template_begin(ctx, 30);
nk_layout_row_template_push_dynamic(ctx);
nk_layout_row_template_push_variable(ctx, 80);
nk_layout_row_template_push_static(ctx, 80);
nk_layout_row_template_end(ctx);
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_button_label(ctx, "button");
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Group", NK_MINIMIZED))
{
static int group_titlebar = nk_false;
static int group_border = nk_true;
static int group_no_scrollbar = nk_false;
static int group_width = 320;
static int group_height = 200;
nk_flags group_flags = 0;
if (group_border) group_flags |= NK_WINDOW_BORDER;
if (group_no_scrollbar) group_flags |= NK_WINDOW_NO_SCROLLBAR;
if (group_titlebar) group_flags |= NK_WINDOW_TITLE;
nk_layout_row_dynamic(ctx, 30, 3);
nk_checkbox_label(ctx, "Titlebar", &group_titlebar);
nk_checkbox_label(ctx, "Border", &group_border);
nk_checkbox_label(ctx, "No Scrollbar", &group_no_scrollbar);
nk_layout_row_begin(ctx, NK_STATIC, 22, 3);
nk_layout_row_push(ctx, 50);
nk_label(ctx, "size:", NK_TEXT_LEFT);
nk_layout_row_push(ctx, 130);
nk_property_int(ctx, "#Width:", 100, &group_width, 500, 10, 1);
nk_layout_row_push(ctx, 130);
nk_property_int(ctx, "#Height:", 100, &group_height, 500, 10, 1);
nk_layout_row_end(ctx);
nk_layout_row_static(ctx, (float)group_height, group_width, 2);
if (nk_group_begin(ctx, "Group", group_flags)) {
int i = 0;
static int selected[16];
nk_layout_row_static(ctx, 18, 100, 1);
for (i = 0; i < 16; ++i)
nk_selectable_label(ctx, (selected[i]) ? "Selected": "Unselected", NK_TEXT_CENTERED, &selected[i]);
nk_group_end(ctx);
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Notebook", NK_MINIMIZED))
{
static int current_tab = 0;
struct nk_vec2 item_padding;
struct nk_rect bounds;
float step = (2*3.141592654f) / 32;
enum chart_type {CHART_LINE, CHART_HISTO, CHART_MIXED};
const char *names[] = {"Lines", "Columns", "Mixed"};
float id = 0;
int i;
/* Header */
nk_style_push_vec2(ctx, &ctx->style.window.spacing, nk_vec2(0,0));
nk_style_push_float(ctx, &ctx->style.button.rounding, 0);
nk_layout_row_begin(ctx, NK_STATIC, 20, 3);
for (i = 0; i < 3; ++i) {
/* make sure button perfectly fits text */
const struct nk_user_font *f = ctx->style.font;
float text_width = f->width(f->userdata, f->height, names[i], nk_strlen(names[i]));
float widget_width = text_width + 3 * ctx->style.button.padding.x;
nk_layout_row_push(ctx, widget_width);
if (current_tab == i) {
/* active tab gets highlighted */
struct nk_style_item button_color = ctx->style.button.normal;
ctx->style.button.normal = ctx->style.button.active;
current_tab = nk_button_label(ctx, names[i]) ? i: current_tab;
ctx->style.button.normal = button_color;
} else current_tab = nk_button_label(ctx, names[i]) ? i: current_tab;
}
nk_style_pop_float(ctx);
/* Body */
nk_layout_row_dynamic(ctx, 140, 1);
if (nk_group_begin(ctx, "Notebook", NK_WINDOW_BORDER))
{
nk_style_pop_vec2(ctx);
switch (current_tab) {
case CHART_LINE:
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin_colored(ctx, NK_CHART_LINES, nk_rgb(255,0,0), nk_rgb(150,0,0), 32, 0.0f, 1.0f)) {
nk_chart_add_slot_colored(ctx, NK_CHART_LINES, nk_rgb(0,0,255), nk_rgb(0,0,150),32, -1.0f, 1.0f);
for (i = 0, id = 0; i < 32; ++i) {
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 0);
nk_chart_push_slot(ctx, (float)cos(id), 1);
id += step;
}
}
nk_chart_end(ctx);
break;
case CHART_HISTO:
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin_colored(ctx, NK_CHART_COLUMN, nk_rgb(255,0,0), nk_rgb(150,0,0), 32, 0.0f, 1.0f)) {
for (i = 0, id = 0; i < 32; ++i) {
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 0);
id += step;
}
}
nk_chart_end(ctx);
break;
case CHART_MIXED:
nk_layout_row_dynamic(ctx, 100, 1);
bounds = nk_widget_bounds(ctx);
if (nk_chart_begin_colored(ctx, NK_CHART_LINES, nk_rgb(255,0,0), nk_rgb(150,0,0), 32, 0.0f, 1.0f)) {
nk_chart_add_slot_colored(ctx, NK_CHART_LINES, nk_rgb(0,0,255), nk_rgb(0,0,150),32, -1.0f, 1.0f);
nk_chart_add_slot_colored(ctx, NK_CHART_COLUMN, nk_rgb(0,255,0), nk_rgb(0,150,0), 32, 0.0f, 1.0f);
for (i = 0, id = 0; i < 32; ++i) {
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 0);
nk_chart_push_slot(ctx, (float)fabs(cos(id)), 1);
nk_chart_push_slot(ctx, (float)fabs(sin(id)), 2);
id += step;
}
}
nk_chart_end(ctx);
break;
}
nk_group_end(ctx);
} else nk_style_pop_vec2(ctx);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Simple", NK_MINIMIZED))
{
nk_layout_row_dynamic(ctx, 300, 2);
if (nk_group_begin(ctx, "Group_Without_Border", 0)) {
int i = 0;
char buffer[64];
nk_layout_row_static(ctx, 18, 150, 1);
for (i = 0; i < 64; ++i) {
sprintf(buffer, "0x%02x", i);
nk_labelf(ctx, NK_TEXT_LEFT, "%s: scrollable region", buffer);
}
nk_group_end(ctx);
}
if (nk_group_begin(ctx, "Group_With_Border", NK_WINDOW_BORDER)) {
int i = 0;
char buffer[64];
nk_layout_row_dynamic(ctx, 25, 2);
for (i = 0; i < 64; ++i) {
sprintf(buffer, "%08d", ((((i%7)*10)^32))+(64+(i%2)*2));
nk_button_label(ctx, buffer);
}
nk_group_end(ctx);
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Complex", NK_MINIMIZED))
{
int i;
nk_layout_space_begin(ctx, NK_STATIC, 500, 64);
nk_layout_space_push(ctx, nk_rect(0,0,150,500));
if (nk_group_begin(ctx, "Group_left", NK_WINDOW_BORDER)) {
static int selected[32];
nk_layout_row_static(ctx, 18, 100, 1);
for (i = 0; i < 32; ++i)
nk_selectable_label(ctx, (selected[i]) ? "Selected": "Unselected", NK_TEXT_CENTERED, &selected[i]);
nk_group_end(ctx);
}
nk_layout_space_push(ctx, nk_rect(160,0,150,240));
if (nk_group_begin(ctx, "Group_top", NK_WINDOW_BORDER)) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
nk_layout_space_push(ctx, nk_rect(160,250,150,250));
if (nk_group_begin(ctx, "Group_buttom", NK_WINDOW_BORDER)) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
nk_layout_space_push(ctx, nk_rect(320,0,150,150));
if (nk_group_begin(ctx, "Group_right_top", NK_WINDOW_BORDER)) {
static int selected[4];
nk_layout_row_static(ctx, 18, 100, 1);
for (i = 0; i < 4; ++i)
nk_selectable_label(ctx, (selected[i]) ? "Selected": "Unselected", NK_TEXT_CENTERED, &selected[i]);
nk_group_end(ctx);
}
nk_layout_space_push(ctx, nk_rect(320,160,150,150));
if (nk_group_begin(ctx, "Group_right_center", NK_WINDOW_BORDER)) {
static int selected[4];
nk_layout_row_static(ctx, 18, 100, 1);
for (i = 0; i < 4; ++i)
nk_selectable_label(ctx, (selected[i]) ? "Selected": "Unselected", NK_TEXT_CENTERED, &selected[i]);
nk_group_end(ctx);
}
nk_layout_space_push(ctx, nk_rect(320,320,150,150));
if (nk_group_begin(ctx, "Group_right_bottom", NK_WINDOW_BORDER)) {
static int selected[4];
nk_layout_row_static(ctx, 18, 100, 1);
for (i = 0; i < 4; ++i)
nk_selectable_label(ctx, (selected[i]) ? "Selected": "Unselected", NK_TEXT_CENTERED, &selected[i]);
nk_group_end(ctx);
}
nk_layout_space_end(ctx);
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Splitter", NK_MINIMIZED))
{
const struct nk_input *in = &ctx->input;
nk_layout_row_static(ctx, 20, 320, 1);
nk_label(ctx, "Use slider and spinner to change tile size", NK_TEXT_LEFT);
nk_label(ctx, "Drag the space between tiles to change tile ratio", NK_TEXT_LEFT);
if (nk_tree_push(ctx, NK_TREE_NODE, "Vertical", NK_MINIMIZED))
{
static float a = 100, b = 100, c = 100;
struct nk_rect bounds;
float row_layout[5];
row_layout[0] = a;
row_layout[1] = 8;
row_layout[2] = b;
row_layout[3] = 8;
row_layout[4] = c;
/* header */
nk_layout_row_static(ctx, 30, 100, 2);
nk_label(ctx, "left:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &a, 200.0f, 10.0f);
nk_label(ctx, "middle:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &b, 200.0f, 10.0f);
nk_label(ctx, "right:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &c, 200.0f, 10.0f);
/* tiles */
nk_layout_row(ctx, NK_STATIC, 200, 5, row_layout);
/* left space */
if (nk_group_begin(ctx, "left", NK_WINDOW_NO_SCROLLBAR|NK_WINDOW_BORDER|NK_WINDOW_NO_SCROLLBAR)) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
/* scaler */
bounds = nk_widget_bounds(ctx);
nk_spacing(ctx, 1);
if ((nk_input_is_mouse_hovering_rect(in, bounds) ||
nk_input_is_mouse_prev_hovering_rect(in, bounds)) &&
nk_input_is_mouse_down(in, NK_BUTTON_LEFT))
{
a = row_layout[0] + in->mouse.delta.x;
b = row_layout[2] - in->mouse.delta.x;
}
/* middle space */
if (nk_group_begin(ctx, "center", NK_WINDOW_BORDER|NK_WINDOW_NO_SCROLLBAR)) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
/* scaler */
bounds = nk_widget_bounds(ctx);
nk_spacing(ctx, 1);
if ((nk_input_is_mouse_hovering_rect(in, bounds) ||
nk_input_is_mouse_prev_hovering_rect(in, bounds)) &&
nk_input_is_mouse_down(in, NK_BUTTON_LEFT))
{
b = (row_layout[2] + in->mouse.delta.x);
c = (row_layout[4] - in->mouse.delta.x);
}
/* right space */
if (nk_group_begin(ctx, "right", NK_WINDOW_BORDER|NK_WINDOW_NO_SCROLLBAR)) {
nk_layout_row_dynamic(ctx, 25, 1);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
nk_tree_pop(ctx);
}
if (nk_tree_push(ctx, NK_TREE_NODE, "Horizontal", NK_MINIMIZED))
{
static float a = 100, b = 100, c = 100;
struct nk_rect bounds;
/* header */
nk_layout_row_static(ctx, 30, 100, 2);
nk_label(ctx, "top:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &a, 200.0f, 10.0f);
nk_label(ctx, "middle:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &b, 200.0f, 10.0f);
nk_label(ctx, "bottom:", NK_TEXT_LEFT);
nk_slider_float(ctx, 10.0f, &c, 200.0f, 10.0f);
/* top space */
nk_layout_row_dynamic(ctx, a, 1);
if (nk_group_begin(ctx, "top", NK_WINDOW_NO_SCROLLBAR|NK_WINDOW_BORDER)) {
nk_layout_row_dynamic(ctx, 25, 3);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
/* scaler */
nk_layout_row_dynamic(ctx, 8, 1);
bounds = nk_widget_bounds(ctx);
nk_spacing(ctx, 1);
if ((nk_input_is_mouse_hovering_rect(in, bounds) ||
nk_input_is_mouse_prev_hovering_rect(in, bounds)) &&
nk_input_is_mouse_down(in, NK_BUTTON_LEFT))
{
a = a + in->mouse.delta.y;
b = b - in->mouse.delta.y;
}
/* middle space */
nk_layout_row_dynamic(ctx, b, 1);
if (nk_group_begin(ctx, "middle", NK_WINDOW_NO_SCROLLBAR|NK_WINDOW_BORDER)) {
nk_layout_row_dynamic(ctx, 25, 3);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
{
/* scaler */
nk_layout_row_dynamic(ctx, 8, 1);
bounds = nk_widget_bounds(ctx);
if ((nk_input_is_mouse_hovering_rect(in, bounds) ||
nk_input_is_mouse_prev_hovering_rect(in, bounds)) &&
nk_input_is_mouse_down(in, NK_BUTTON_LEFT))
{
b = b + in->mouse.delta.y;
c = c - in->mouse.delta.y;
}
}
/* bottom space */
nk_layout_row_dynamic(ctx, c, 1);
if (nk_group_begin(ctx, "bottom", NK_WINDOW_NO_SCROLLBAR|NK_WINDOW_BORDER)) {
nk_layout_row_dynamic(ctx, 25, 3);
nk_button_label(ctx, "#FFAA");
nk_button_label(ctx, "#FFBB");
nk_button_label(ctx, "#FFCC");
nk_button_label(ctx, "#FFDD");
nk_button_label(ctx, "#FFEE");
nk_button_label(ctx, "#FFFF");
nk_group_end(ctx);
}
nk_tree_pop(ctx);
}
nk_tree_pop(ctx);
}
nk_tree_pop(ctx);
}
}
nk_end(ctx);
//return !nk_window_is_closed(ctx, "Overview");
}
void render(void)
{
renderer_draw();
}
void game_cleanup(void)
{
if(game_state)
{
if(game_state->is_initialized)
{
editor_cleanup();
scene_cleanup();
entity_cleanup();
model_cleanup();
material_cleanup();
geom_cleanup();
light_cleanup();
transform_cleanup();
camera_cleanup();
input_cleanup();
renderer_cleanup();
io_file_cleanup();
framebuffer_cleanup();
texture_cleanup();
shader_cleanup();
sound_cleanup();
window_destroy(game_state->window);
gl_cleanup();
window_cleanup();
}
free(game_state);
}
}
struct Game_State* game_state_get(void)
{
return game_state;
}