//#define VG_STEAM
#include "vg/vg.h"
+#include "fishladder_resources.h"
-SHADER_DEFINE( shader_tile_colour,
-
- // VERTEX
- "layout (location=0) in vec2 a_co;"
- "uniform mat3 uPv;"
- "uniform vec3 uOffset;"
- ""
- "void main()"
- "{"
- "gl_Position = vec4( uPv * vec3( a_co * uOffset.z + uOffset.xy, 1.0 ), 1.0 );"
- "}",
-
- // FRAGMENT
- "out vec4 FragColor;"
- "uniform vec4 uColour;"
- ""
- "void main()"
- "{"
- "FragColor = uColour;"
- "}"
- ,
- UNIFORMS({ "uPv", "uOffset", "uColour" })
-)
+const char *level_pack_1[] = {
+ "level0",
+ "level1",
+ "level2",
+ "level3",
+ "level4"
+};
+
+const char *level_pack[] =
+{
+ // Level 0
+ "#########;\n"
+ "###-#####;acac\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "#####+###;acac\n"
+ "#########;\n",
+
+ // Level 1
+ "#########;\n"
+ "##-###-##;b,b\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "####+####;bb\n"
+ "#########;\n",
+
+ // Level 2
+ "###########;\n"
+ "#####-#####;bbbbb\n"
+ "## ##;\n"
+ "## ###;\n"
+ "## # ##;\n"
+ "## ##;\n"
+ "###+##+####;bbb,bb\n"
+ "###########;\n",
+
+ // Level 3
+ "#############;\n"
+ "###-#####-###;a,aaa\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "######+######;aaaa\n"
+ "#############;\n",
+
+ // Level 4
+ "#############;\n"
+ "###-#####-###;aaa,aa\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "###+#####+###;aa,aaa\n"
+ "#############;\n",
+
+ // Level 5
+ "###############;\n"
+ "####-##########;abcb\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "## ##;\n"
+ "##########+####;bcba\n"
+ "###############;\n"
+};
m3x3f m_projection;
m3x3f m_view;
#define FLAG_OUTPUT 0x2
#define FLAG_CANAL 0x4
#define FLAG_WALL 0x8
-#define FLAG_DROP_L 0x10
-#define FLAG_SPLIT 0x20
-#define FLAG_MERGER 0x40
-#define FLAG_DROP_R 0x80
#define FLAG_FLIP_FLOP 0x100
+#define FLAG_FLIP_ROTATING 0x200
+
+/*
+ 0000 0 | 0001 1 | 0010 2 | 0011 3
+ | | | | |
+ X | X= | X | X=
+ | | |
+ 0100 4 | 0101 5 | 0110 6 | 0111 7
+ | | | | |
+ =X | =X= | =X | =X=
+ | | |
+ 1000 8 | 1001 9 | 1010 10 | 1011 11
+ | | | | |
+ X | X= | X | X=
+ | | | | | | |
+ 1100 12 | 1101 13 | 1110 14 | 1111 15
+ | | | | |
+ =X | =X= | =X | =X=
+ | | | | | | |
+*/
+
+enum cell_type
+{
+ k_cell_type_ramp_right = 3,
+ k_cell_type_ramp_left = 6,
+ k_cell_type_split = 7,
+ k_cell_type_merge = 13
+};
v3f colour_sets[] =
-{ { 0.9f, 0.2f, 0.01f },
+{ { 0.9f, 0.6f, 0.20f },
{ 0.2f, 0.9f, 0.14f },
- { 0.1f, 0.3f, 0.85f } };
+ { 0.4f, 0.8f, 1.00f } };
static void colour_code_v3( char cc, v3f target )
{
float sim_start;
int simulating;
+ float frame_lerp;
+
struct cell_terminal
{
// TODO: Split into input/output structures
u32 w, h;
- struct mesh tile, circle, splitter_l, splitter_r;
+ struct mesh tile, circle;
- int selected;
+ GLuint background_data;
+ GLuint random_samples;
+
+ int selected, tile_x, tile_y;
+ v2f tile_pos;
struct fish
{
v2i dir;
int alive;
char payload;
+ float death_time;
+ v2f physics_v;
+ v2f physics_co;
}
fishes[16];
int num_fishes;
+
+ char map_name[128];
} world = {};
static void map_free(void)
world.io = NULL;
}
-static int map_load( const char *str )
+static void map_reclassify( v2i start, v2i end, int update_texbuffer );
+static int map_load( const char *str, const char *name )
{
map_free();
// Tile initialization
// row[ cx ] .. etc
+ struct cell *cell = &row[ cx ];
if( *c == '+' || *c == '-' )
{
struct cell_terminal term = { .id = cx + world.h*world.w };
arrpush( world.io, term );
- row[ cx ++ ].state = *c == '+'? FLAG_INPUT: FLAG_OUTPUT;
+ cell->state = *c == '+'? FLAG_INPUT: FLAG_OUTPUT;
reg_end ++;
}
- else if( *c == '#' )
- {
- row[ cx ++ ].state = FLAG_WALL;
- }
- else
- {
- row[ cx ++ ].state = 0x00;
- }
+ else if( *c == '#' ) cell->state = FLAG_WALL;
+ else if( *c == '*' ) cell->state = FLAG_CANAL;
+ else cell->state = 0x00;
+
+ cx ++;
}
c ++;
}
- vg_success( "Map loaded! (%u:%u)\n", world.w, world.h );
+ // Update data texture to fill out the background
+ {
+ u8 info_buffer[64*64*4];
+ for( int i = 0; i < 64*64; i ++ )
+ {
+ u8 *px = &info_buffer[i*4];
+ px[0] = 255;
+ px[1] = 0;
+ px[2] = 0;
+ px[3] = 0;
+ }
+
+ glBindTexture( GL_TEXTURE_2D, world.background_data );
+ glTexSubImage2D( GL_TEXTURE_2D, 0, 0, 0, 64, 64, GL_RGBA, GL_UNSIGNED_BYTE, info_buffer );
+ }
+
+ map_reclassify( NULL, NULL, 1 );
+ vg_success( "Map '%s' loaded! (%u:%u)\n", name, world.w, world.h );
+
+ strncpy( world.map_name, name, vg_list_size( world.map_name )-1 );
return 1;
}
return &world.data[ pos[1]*world.w + pos[0] ];
}
+static void map_serialize( FILE *stream )
+{
+ for( int y = 0; y < world.h; y ++ )
+ {
+ for( int x = 0; x < world.w; x ++ )
+ {
+ struct cell *cell = pcell( (v2i){ x, y } );
+
+ if( cell->state & FLAG_WALL ) fputc( '#', stream );
+ else if( cell->state & FLAG_INPUT ) fputc( '+', stream );
+ else if( cell->state & FLAG_OUTPUT ) fputc( '-', stream );
+ else if( cell->state & FLAG_CANAL ) fputc( '*', stream );
+ else fputc( ' ', stream );
+ }
+
+ fputc( ';', stream );
+
+ int terminal_write_count = 0;
+
+ for( int x = 0; x < world.w; x ++ )
+ {
+ for( int i = 0; i < arrlen( world.io ); i ++ )
+ {
+ struct cell_terminal *term = &world.io[i];
+ if( term->id == y*world.w+x )
+ {
+ if( terminal_write_count )
+ fputc( ',', stream );
+ terminal_write_count ++;
+
+ for( int j = 0; j < arrlen( term->conditions ); j ++ )
+ fputc( term->conditions[j], stream );
+ }
+ }
+ }
+
+ fputc( '\n', stream );
+ }
+}
+
int main( int argc, char *argv[] )
{
- vg_init( argc, argv, "FishLadder" );
+ vg_init( argc, argv, "Fish (Marbles Computer) Ladder Simulator 2022 | N,M: change level | SPACE: Test | LeftClick: Toggle tile" );
+}
+
+static int console_save_map( int argc, char const *argv[] )
+{
+ char map_path[ 256 ];
+
+ strcpy( map_path, "sav/" );
+ strcat( map_path, world.map_name );
+ strcat( map_path, ".map" );
+
+ FILE *test_writer = fopen( map_path, "wb" );
+ if( test_writer )
+ {
+ map_serialize( test_writer );
+
+ fclose( test_writer );
+ return 1;
+ }
+ else
+ {
+ vg_error( "Unable to open stream for writing\n" );
+ return 0;
+ }
+}
+
+static int console_load_map( int argc, char const *argv[] )
+{
+ char map_path[ 256 ];
+
+ if( argc >= 1 )
+ {
+ // try from saves
+ strcpy( map_path, "sav/" );
+ strcat( map_path, argv[0] );
+ strcat( map_path, ".map" );
+
+ char *text_source = vg_textasset_read( map_path );
+
+ if( !text_source )
+ {
+ strcpy( map_path, "maps/" );
+ strcat( map_path, argv[0] );
+ strcat( map_path, ".map" );
+
+ text_source = vg_textasset_read( map_path );
+ }
+
+ if( text_source )
+ {
+ map_load( text_source, argv[0] );
+ free( text_source );
+ return 1;
+ }
+ else
+ {
+ vg_error( "Missing maps '%s'\n", argv[0] );
+ return 0;
+ }
+ }
+ else
+ {
+ vg_error( "Missing argument <map_path>\n" );
+ return 0;
+ }
}
-void vg_register(void)
+static int console_changelevel( int argc, char const *argv[] )
{
- SHADER_INIT( shader_tile_colour );
+ if( argc >= 1 )
+ {
+ // Save current level
+ if( console_save_map( 0, NULL ) )
+ if( console_load_map( argc, argv ) )
+ return 1;
+ }
+ else
+ {
+ vg_error( "Missing argument <map_path>\n" );
+ }
+
+ return 0;
}
void vg_start(void)
{
+ vg_function_push( (struct vg_cmd){
+ .name = "map_write",
+ .function = console_save_map
+ });
+
+ vg_function_push( (struct vg_cmd){
+ .name = "map_load",
+ .function = console_load_map
+ });
+
+ vg_function_push( (struct vg_cmd){
+ .name = "changelevel",
+ .function = console_changelevel
+ });
+
// Quad mesh
{
float quad_mesh[] =
0.0f, 0.0f, 0.0f, 1.0f, 1.0f, 1.0f,
0.0f, 0.0f, 1.0f, 1.0f, 1.0f, 0.0f,
- 0.48f, 0.48f, 0.5f, 0.52f, 0.52f, 0.52f, // Static dot
- 0.375f, 0.25f, 0.5f, 0.75f, 0.625f, 0.25f, // Downwards pointing arrow
- 0.25f, 0.625f, 0.75f, 0.5f, 0.25f, 0.375f, // Left
- 0.625f, 0.75f, 0.5f, 0.25f, 0.375f, 0.75f, // up
- 0.75f, 0.375f, 0.25f, 0.5f, 0.75f, 0.625f
+ 0.0f, 0.0f, 0.0f, 1.0f, 4.0f, 1.0f,
+ 0.0f, 0.0f, 4.0f, 1.0f, 4.0f, 0.0f
};
init_mesh( &world.tile, quad_mesh, vg_list_size(quad_mesh) );
init_mesh( &world.circle, circle_mesh, vg_list_size( circle_mesh ) );
}
- // splitters (temp)
+ // Create info data texture
{
- float splitter_l[] =
- {
- #include "models/splitter_l.obj.h"
- };
- float splitter_r[] =
- {
- #include "models/splitter_r.obj.h"
- };
+ glGenTextures( 1, &world.background_data );
+ glBindTexture( GL_TEXTURE_2D, world.background_data );
+ glTexImage2D( GL_TEXTURE_2D, 0, GL_RGBA, 64, 64, 0, GL_RGBA, GL_UNSIGNED_BYTE, NULL );
+ vg_tex2d_nearest();
+ }
+
+ // Create random smaples texture
+ {
+ u8 *data = malloc(512*512*2);
+ for( int i = 0; i < 512*512*2; i ++ )
+ data[ i ] = rand()/(RAND_MAX/255);
+
+ glGenTextures( 1, &world.random_samples );
+ glBindTexture( GL_TEXTURE_2D, world.random_samples );
+ glTexImage2D( GL_TEXTURE_2D, 0, GL_RG, 512, 512, 0, GL_RG, GL_UNSIGNED_BYTE, data );
+ vg_tex2d_linear();
+ vg_tex2d_repeat();
- init_mesh( &world.splitter_l, splitter_l, vg_list_size( splitter_l ) );
- init_mesh( &world.splitter_r, splitter_r, vg_list_size( splitter_r ) );
- }
-
- map_load
- (
- "#############;\n"
- "###-#####-###;aaa,aa\n"
- "## ##;\n"
- "## ##;\n"
- "## ##;\n"
- "## ##;\n"
- "## ##;\n"
- "## ##;\n"
- "###+#####+###;aa,aaa\n"
- "#############;\n"
- );
+ free( data );
+ }
+
+ resource_load_main();
+
+ console_load_map( 1, level_pack_1 );
}
void vg_free(void)
{
+ resource_free_main();
+
+ glDeleteTextures( 1, &world.background_data );
+ glDeleteTextures( 1, &world.random_samples );
+
free_mesh( &world.tile );
free_mesh( &world.circle );
- free_mesh( &world.splitter_l );
- free_mesh( &world.splitter_r );
-
+
map_free();
}
return 1;
}
+static void map_reclassify( v2i start, v2i end, int update_texbuffer )
+{
+ v2i full_start = { 1,1 };
+ v2i full_end = { world.w-1, world.h-1 };
+
+ if( !start || !end )
+ {
+ start = full_start;
+ end = full_end;
+ }
+
+ // Texture data
+ u8 info_buffer[64*64*4];
+ u32 pixel_id = 0;
+
+ int px0 = vg_max( start[0], full_start[0] ),
+ px1 = vg_min( end[0], full_end[0] ),
+ py0 = vg_max( start[1], full_start[1] ),
+ py1 = vg_min( end[1], full_end[1] );
+
+ for( int y = py0; y < py1; y ++ )
+ {
+ for( int x = px0; x < px1; x ++ )
+ {
+ struct cell *cell = pcell((v2i){x,y});
+
+ v2i dirs[] = {{1,0},{0,1},{-1,0},{0,-1}};
+
+ u8 height = 0;
+ u8 config = 0x00;
+
+ if( cell->state & (FLAG_CANAL|FLAG_INPUT|FLAG_OUTPUT) )
+ {
+ for( int i = 0; i < vg_list_size( dirs ); i ++ )
+ {
+ struct cell *neighbour = pcell((v2i){x+dirs[i][0], y+dirs[i][1]});
+ if( neighbour->state & (FLAG_CANAL|FLAG_INPUT|FLAG_OUTPUT) )
+ config |= 0x1 << i;
+ }
+
+ height = 128;
+ }
+ else
+ {
+ if( cell->state & FLAG_WALL )
+ height = 255;
+
+ config = 0xF;
+ }
+
+ pcell((v2i){x,y})->config = config;
+
+ u8 *info_px = &info_buffer[ (pixel_id ++)*4 ];
+ info_px[0] = height;
+ info_px[1] = cell->state & FLAG_WALL? 0: 255;
+ info_px[2] = 0;
+ info_px[3] = 0;
+ }
+ }
+
+ if( update_texbuffer )
+ {
+ glBindTexture( GL_TEXTURE_2D, world.background_data );
+ glTexSubImage2D( GL_TEXTURE_2D, 0, px0 + 16, py0 + 16, px1-px0, py1-py0, GL_RGBA, GL_UNSIGNED_BYTE, info_buffer );
+ }
+}
+
+v2f const curve_3[] = {{0.5f,1.0f},{0.5f,0.625f},{0.625f,0.5f},{1.0f,0.5f}};
+v2f const curve_6[] = {{0.5f,1.0f},{0.5f,0.625f},{0.375f,0.5f},{0.0f,0.5f}};
+v2f const curve_9[] = {{1.0f,0.5f},{0.625f,0.5f},{0.5f,0.375f},{0.5f,0.0f}};
+v2f const curve_12[]= {{0.0f,0.5f},{0.375f,0.5f},{0.5f,0.375f},{0.5f,0.0f}};
+
+v2f const curve_2[] = {{0.5f,1.0f},{0.5f,0.8f},{0.5f,0.3f},{0.5f,0.2f}};
+v2f const curve_8[] = {{0.5f,0.8f},{0.5f,0.5f},{0.5f,0.3f},{0.5f,0.0f}};
+
+v2f const curve_7[] = {{0.5f,0.8438f},{0.875f,0.8438f},{0.625f,0.5f},{1.0f,0.5f}};
+v2f const curve_7_1[] = {{0.5f,0.8438f},{1.0f-0.875f,0.8438f},{1.0-0.625f,0.5f},{0.0f,0.5f}};
+
+float const curve_7_linear_section = 0.1562f;
+
void vg_update(void)
{
- float ratio = (float)vg_window_y / (float)vg_window_x;
- float const size = 9.5f;
+ static int curlevel = 0;
+ int changelvl = curlevel;
+ if( vg_get_button_down( "prev" ) ) { if( curlevel > 0 ) changelvl --; }
+ else if( vg_get_button_down( "next" ) ) { if( curlevel < vg_list_size( level_pack )-1 ) changelvl ++; }
+
+ if( changelvl != curlevel )
+ {
+ console_changelevel( 1, level_pack + changelvl );
+ curlevel = changelvl;
+
+ // TEMP!!! code dupe
+ world.simulating = 0;
+ world.num_fishes = 0;
+ world.sim_frame = 0;
+
+ for( int i = 0; i < arrlen( world.io ); i ++ )
+ world.io[i].recv_count = 0;
+
+ vg_info( "Stopping simulation!\n" );
+ }
+
+ // Fit within screen
+
+ float r1 = (float)vg_window_y / (float)vg_window_x,
+ r2 = (float)world.h / (float)world.w,
+ size;
+
+ size = ( r2 < r1? (float)world.w * 0.5f: ((float)world.h * 0.5f) / r1 ) + 2.5f;
+ m3x3_projection( m_projection, -size, size, -size*r1, size*r1 );
v3f origin;
- origin[0] = -0.5f * world.w;
- origin[1] = -0.5f * world.h;
+ origin[0] = floorf( -0.5f * world.w );
+ origin[1] = floorf( -0.5f * world.h );
origin[2] = 0.0f;
- m3x3_projection( m_projection, -size, size, -size*ratio, size*ratio );
m3x3_identity( m_view );
m3x3_translate( m_view, origin );
m3x3_mul( m_projection, m_view, vg_pv );
vg_projection_update();
// Input stuff
+ v2_copy( vg_mouse_ws, world.tile_pos );
- v2f tile_pos;
- v2_copy( vg_mouse_ws, tile_pos );
-
- int tile_x = floorf( tile_pos[0] );
- int tile_y = floorf( tile_pos[1] );
-
+ world.tile_x = floorf( world.tile_pos[0] );
+ world.tile_y = floorf( world.tile_pos[1] );
+
// Tilemap editing
if( !world.simulating )
{
- if( cell_interactive( (v2i){ tile_x, tile_y } ))
+ if( cell_interactive( (v2i){ world.tile_x, world.tile_y } ))
{
- world.selected = tile_y * world.w + tile_x;
+ world.selected = world.tile_y * world.w + world.tile_x;
if( vg_get_button_down("primary") )
{
world.data[ world.selected ].state ^= FLAG_CANAL;
+
+ if( world.data[ world.selected ].state & FLAG_CANAL )
+ sfx_set_playrnd( &audio_tile_mod, &audio_system_sfx, 3, 6 );
+ else
+ sfx_set_playrnd( &audio_tile_mod, &audio_system_sfx, 0, 3 );
+
+ map_reclassify( (v2i){ world.tile_x -2, world.tile_y -2 },
+ (v2i){ world.tile_x +2, world.tile_y +2 }, 1 );
}
}
else
world.selected = -1;
}
+ else world.selected = -1;
// Simulation stop/start
if( vg_get_button_down("go") )
world.io[i].recv_count = 0;
vg_info( "Stopping simulation!\n" );
+
+ sfx_system_fadeout( &audio_system_balls_rolling, 44100 );
}
else
{
vg_success( "Starting simulation!\n" );
+ sfx_set_playrnd( &audio_rolls, &audio_system_balls_rolling, 0, 1 );
+
world.simulating = 1;
world.num_fishes = 0;
world.sim_frame = 0;
world.io[i].recv_count = 0;
}
}
-
- // Simulation stuff
- // ========================================================
-
- // Reclassify world. TODO: Move into own function
- for( int y = 2; y < world.h-2; y ++ )
- {
- for( int x = 2; x < world.w-2; x ++ )
+
+ // Fish ticks
+ if( world.simulating )
+ {
+ while( world.sim_frame < (int)((vg_time-world.sim_start)*2.0f) )
{
- v2i dirs[] = {{1,0},{0,1},{-1,0},{0,-1}};
-
- u8 config = 0x00;
-
- if( pcell((v2i){x,y})->state & FLAG_CANAL )
+ //vg_info( "frame: %u\n", world.sim_frame );
+ sfx_set_playrnd( &audio_random, &audio_system_balls_switching, 0, 9 );
+
+ // Update splitter deltas
+ for( int i = 0; i < world.h*world.w; i ++ )
{
- for( int i = 0; i < vg_list_size( dirs ); i ++ )
+ struct cell *cell = &world.data[i];
+ if( cell->config == k_cell_type_split )
{
- struct cell *neighbour = pcell((v2i){x+dirs[i][0], y+dirs[i][1]});
- if( neighbour->state & (FLAG_CANAL|FLAG_INPUT|FLAG_OUTPUT) )
- config |= 0x1 << i;
+ cell->state &= ~FLAG_FLIP_ROTATING;
}
- } else config = 0xF;
-
- pcell((v2i){x,y})->config = config;
- pcell((v2i){x,y})->state &= ~(FLAG_DROP_L|FLAG_DROP_R|FLAG_SPLIT|FLAG_MERGER);
- }
- }
-
- for( int y = 2; y < world.h-2; y ++ )
- for( int x = 2; x < world.w-2; x ++ )
- {
- // R,D,L,- 1110 (splitter, 1 drop created)
-
- // R,-,L,U - 1011 (merger, 2 drop created)
-
- u8 config = pcell((v2i){x,y})->config;
+ }
- if( config == 0x7 ) // splitter
+ // Update fish positions
+ for( int i = 0; i < world.num_fishes; i ++ )
{
- world.data[y*world.w+x ].state |= (FLAG_SPLIT | FLAG_DROP_L | FLAG_DROP_R);
+ struct fish *fish = &world.fishes[i];
+ struct cell *cell_current = pcell( fish->pos );
+
+ if( fish->alive == -1 )
+ fish->alive = 0;
+
+ if( fish->alive != 1 )
+ continue;
+
+ // Apply to output
+ if( cell_current->state & FLAG_OUTPUT )
+ {
+ for( int j = 0; j < arrlen( world.io ); j ++ )
+ {
+ struct cell_terminal *term = &world.io[j];
+
+ if( term->id == fish->pos[1]*world.w + fish->pos[0] )
+ {
+ term->recv[ term->recv_count ++ ] = fish->payload;
+ break;
+ }
+ }
+
+ fish->alive = 0;
+ continue;
+ }
+
+ if( cell_current->config == k_cell_type_split )
+ {
+ // Flip flop L/R
+ fish->dir[0] = cell_current->state&FLAG_FLIP_FLOP?1:-1;
+ fish->dir[1] = 0;
+
+ cell_current->state ^= FLAG_FLIP_FLOP;
+ }
+ else if( cell_current->config == k_cell_type_merge )
+ {
+ // Can only move up
+ fish->dir[0] = 0;
+ fish->dir[1] = -1;
+ }
+ else
+ {
+ struct cell *cell_next = pcell( (v2i){ fish->pos[0]+fish->dir[0], fish->pos[1]+fish->dir[1] } );
+ if( !(cell_next->state & (FLAG_CANAL|FLAG_OUTPUT)) )
+ {
+ // Try other directions for valid, so down, left, right..
+ v2i dirs[] = {{1,0},{-1,0},{0,-1}};
+ vg_info( "Trying some other directions...\n" );
+
+ for( int j = 0; j < vg_list_size(dirs); j ++ )
+ {
+ if( (dirs[j][0] == -fish->dir[0]) && (dirs[j][1] == -fish->dir[1]) )
+ continue;
+
+ if( pcell( (v2i){ fish->pos[0]+dirs[j][0], fish->pos[1]+dirs[j][1] } )->state & (FLAG_CANAL|FLAG_OUTPUT) )
+ {
+ fish->dir[0] = dirs[j][0];
+ fish->dir[1] = dirs[j][1];
+ }
+ }
+ }
+ }
+
+ fish->pos[0] += fish->dir[0];
+ fish->pos[1] += fish->dir[1];
+
+ struct cell *cell_entry = pcell( fish->pos );
+
+ if( !(cell_entry->state & (FLAG_INPUT|FLAG_CANAL|FLAG_OUTPUT) ))
+ fish->alive = 0;
+ else
+ {
+ if( fish->dir[0] )
+ {
+ if( cell_entry->config == k_cell_type_split ||
+ cell_entry->config == k_cell_type_ramp_right ||
+ cell_entry->config == k_cell_type_ramp_left )
+ {
+ // Special death (FALL)
+ v2_sub( fish->physics_co, fish->physics_v, fish->physics_v );
+ v2_divs( fish->physics_v, vg_time_delta, fish->physics_v );
+
+ fish->alive = -2;
+ vg_warn( "Special death (fall)\n" );
+ continue;
+ }
+ }
+
+ if( cell_entry->config == k_cell_type_split )
+ {
+ sfx_set_playrnd( &audio_splitter, &audio_system_balls_important, 0, 1 );
+ cell_entry->state |= FLAG_FLIP_ROTATING;
+ }
+ }
}
- else if( config == 0xD )
+
+ // Check for collisions
+ for( int i = 0; i < world.num_fishes; i ++ )
{
- world.data[y*world.w+x-1].state |= FLAG_DROP_R;
- world.data[y*world.w+x+1].state |= FLAG_DROP_L;
- world.data[y*world.w+x].state |= FLAG_MERGER;
+ if( world.fishes[i].alive == 1 )
+ {
+ for( int j = i+1; j < world.num_fishes; j ++ )
+ {
+ if( (world.fishes[j].alive == 1) && (world.fishes[i].pos[0] == world.fishes[j].pos[0]) &&
+ (world.fishes[i].pos[1] == world.fishes[j].pos[1]) )
+ {
+ // Shatter death (+0.5s)
+ world.fishes[i].alive = -1;
+ world.fishes[j].alive = -1;
+ world.fishes[i].death_time = 0.5f;
+ world.fishes[j].death_time = 0.5f;
+ }
+ }
+ }
}
- }
-
- // Fish ticks
- if( world.simulating )
- {
- while( world.sim_frame < (int)((vg_time-world.sim_start)*2.0f) )
- {
- vg_info( "frame: %u\n", world.sim_frame );
+ // Spawn fishes
for( int i = 0; i < arrlen( world.io ); i ++ )
{
struct cell_terminal *term = &world.io[ i ];
v2i dirs[] = {{1,0},{-1,0},{0,-1}};
for( int j = 0; j < vg_list_size(dirs); j ++ )
- {
- v2i target;
if( pcell( (v2i){ posx+dirs[j][0], posy+dirs[j][1] } )->state & FLAG_CANAL )
{
fish->dir[0] = dirs[j][0];
can_spawn = 1;
break;
}
- }
if( !can_spawn )
world.num_fishes--;
}
}
}
-
- for( int i = 0; i < world.num_fishes; i ++ )
+
+ world.sim_frame ++;
+ }
+
+ float scaled_time = 0.0f;
+ scaled_time = (vg_time-world.sim_start)*2.0f;
+ world.frame_lerp = scaled_time - (float)world.sim_frame;
+
+ // Update positions
+ for( int i = 0; i < world.num_fishes; i ++ )
+ {
+ struct fish *fish = &world.fishes[i];
+
+ if( fish->alive == 0 )
+ continue;
+
+ if( fish->alive == -1 && (world.frame_lerp > fish->death_time) )
+ continue; // Todo: particle thing?
+
+ if( fish->alive == -2 )
{
- struct fish *fish = &world.fishes[i];
- struct cell *cell_current = pcell( fish->pos );
+ v2_muladds( fish->physics_v, (v2f){ 0.0, -9.8f }, vg_time_delta, fish->physics_v );
+ v2_muladds( fish->physics_co, fish->physics_v, vg_time_delta, fish->physics_co );
+ }
+ else
+ {
+ struct cell *cell = pcell(fish->pos);
+ v2f const *curve;
- if( !fish->alive )
- continue;
+ float t = world.frame_lerp;
- // Apply to output
- if( cell_current->state & FLAG_OUTPUT )
+ v2_copy( fish->physics_co, fish->physics_v );
+
+ switch( cell->config )
{
- for( int j = 0; j < arrlen( world.io ); j ++ )
- {
- struct cell_terminal *term = &world.io[j];
-
- if( term->id == fish->pos[1]*world.w + fish->pos[0] )
+ case 13:
+ if( fish->dir[0] == 1 )
+ curve = curve_12;
+ else
+ curve = curve_9;
+ break;
+ case 2: curve = curve_2; break;
+ case 8: curve = curve_8; break;
+ case 3: curve = curve_3; break;
+ case 6: curve = curve_6; break;
+ case 9: curve = curve_9; break;
+ case 12: curve = curve_12; break;
+ case 7:
+ if( t > curve_7_linear_section )
{
- term->recv[ term->recv_count ++ ] = fish->payload;
- break;
+ t -= curve_7_linear_section;
+ t *= (1.0f/(1.0f-curve_7_linear_section));
+
+ curve = cell->state & FLAG_FLIP_FLOP? curve_7: curve_7_1;
}
- }
-
- fish->alive = 0;
- continue;
+ else curve = NULL;
+ break;
+ default: curve = NULL; break;
}
-
- if( !(cell_current->state & (FLAG_INPUT|FLAG_CANAL)) )
+
+ if( curve )
{
- fish->alive = 0;
+ float t2 = t * t;
+ float t3 = t * t * t;
+
+ float cA = 3.0f*t2 - 3.0f*t3;
+ float cB = 3.0f*t3 - 6.0f*t2 + 3.0f*t;
+ float cC = 3.0f*t2 - t3 - 3.0f*t + 1.0f;
+
+ fish->physics_co[0] = t3*curve[3][0] + cA*curve[2][0] + cB*curve[1][0] + cC*curve[0][0];
+ fish->physics_co[1] = t3*curve[3][1] + cA*curve[2][1] + cB*curve[1][1] + cC*curve[0][1];
+ fish->physics_co[0] += (float)fish->pos[0];
+ fish->physics_co[1] += (float)fish->pos[1];
}
else
{
- if( cell_current->state & FLAG_SPLIT )
- {
- // Flip flop L/R
- fish->dir[0] = cell_current->state&FLAG_FLIP_FLOP?1:-1;
- fish->dir[1] = 0;
-
- cell_current->state ^= FLAG_FLIP_FLOP;
- }
- else if( cell_current->state & FLAG_MERGER )
- {
- // Can only move up
- fish->dir[0] = 0;
- fish->dir[1] = -1;
- }
- else
- {
- struct cell *cell_next = pcell( (v2i){ fish->pos[0]+fish->dir[0], fish->pos[1]+fish->dir[1] } );
- if( !(cell_next->state & (FLAG_CANAL|FLAG_OUTPUT)) )
- {
- // Try other directions for valid, so down, left, right..
- v2i dirs[] = {{1,0},{-1,0},{0,-1}};
- vg_info( "Trying some other directions...\n" );
-
- for( int j = 0; j < vg_list_size(dirs); j ++ )
- {
- if( (dirs[j][0] == -fish->dir[0]) && (dirs[j][1] == -fish->dir[1]) )
- continue;
-
- if( pcell( (v2i){ fish->pos[0]+dirs[j][0], fish->pos[1]+dirs[j][1] } )->state & (FLAG_CANAL|FLAG_OUTPUT) )
- {
- fish->dir[0] = dirs[j][0];
- fish->dir[1] = dirs[j][1];
- }
- }
- }
- }
+ v2f origin;
+ origin[0] = (float)fish->pos[0] + (float)fish->dir[0]*-0.5f + 0.5f;
+ origin[1] = (float)fish->pos[1] + (float)fish->dir[1]*-0.5f + 0.5f;
- fish->pos[0] += fish->dir[0];
- fish->pos[1] += fish->dir[1];
+ fish->physics_co[0] = origin[0] + (float)fish->dir[0]*t;
+ fish->physics_co[1] = origin[1] + (float)fish->dir[1]*t;
}
}
+ }
+ }
+}
+
+static void render_tiles( v2i start, v2i end, v4f const regular_colour, v4f const selected_colour )
+{
+ v2i full_start = { 0,0 };
+ v2i full_end = { world.w, world.h };
+
+ if( !start || !end )
+ {
+ start = full_start;
+ end = full_end;
+ }
+
+ glUniform4fv( SHADER_UNIFORM( shader_tile_main, "uColour" ), 1, regular_colour );
+
+ for( int y = start[1]; y < end[1]; y ++ )
+ {
+ for( int x = start[0]; x < end[0]; x ++ )
+ {
+ struct cell *cell = pcell((v2i){x,y});
+ int selected = world.selected == y*world.w + x;
- world.sim_frame ++;
+ int tile_offsets[][2] =
+ {
+ {2, 0}, {0, 3}, {0, 2}, {2, 2},
+ {1, 0}, {2, 3}, {3, 2}, {1, 3},
+ {3, 1}, {0, 1}, {1, 2}, {2, 1},
+ {1, 1}, {3, 3}, {2, 1}, {2, 1}
+ };
+
+ int uv[2] = { 3, 0 };
+
+ if( cell->state & (FLAG_CANAL|FLAG_INPUT|FLAG_OUTPUT) )
+ {
+ uv[0] = tile_offsets[ cell->config ][0];
+ uv[1] = tile_offsets[ cell->config ][1];
+ } else continue;
+
+ glUniform4f( SHADER_UNIFORM( shader_tile_main, "uOffset" ), (float)x, (float)y, uv[0], uv[1] );
+ if( selected )
+ {
+ glUniform4fv( SHADER_UNIFORM( shader_tile_main, "uColour" ), 1, selected_colour );
+ draw_mesh( 0, 2 );
+ glUniform4fv( SHADER_UNIFORM( shader_tile_main, "uColour" ), 1, regular_colour );
+ }
+ else
+ draw_mesh( 0, 2 );
}
}
}
glViewport( 0,0, vg_window_x, vg_window_y );
glDisable( GL_DEPTH_TEST );
- glClearColor( 0.8f, 0.8f, 0.8f, 1.0f );
+ glClearColor( 0.369768f, 0.3654f, 0.42f, 1.0f );
glClear( GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT );
+ v4f const colour_default = {1.0f, 1.0f, 1.0f, 1.0f};
+ v4f const colour_selected = {0.90f, 0.92f, 1.0f, 1.0f};
+
+ // TILE SET RENDERING
+ // todo: just slam everything into a mesh...
+ // when user modifies a tile the neighbours can be easily uploaded to gpu mem
+ // in ~3 subBuffers
+ // Currently we're uploading a fair amount of data every frame anyway.
+ // NOTE: this is for final optimisations ONLY!
+ // ======================================================================
+
use_mesh( &world.tile );
- SHADER_USE( shader_tile_colour );
- glUniformMatrix3fv( SHADER_UNIFORM( shader_tile_colour, "uPv" ), 1, GL_FALSE, (float *)vg_pv );
- // Shadow layer
- glUniform4f( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 0.5f, 0.5f, 0.5f, 1.0f );
- for( int y = 0; y < world.h; y ++ )
- for( int x = 0; x < world.w; x ++ )
- {
- struct cell *cell = pcell((v2i){x,y});
+ // Draw background
+
+ if(1){
+
+ SHADER_USE( shader_background );
+ glUniformMatrix3fv( SHADER_UNIFORM( shader_background, "uPv" ), 1, GL_FALSE, (float *)vg_pv );
+
+ glActiveTexture( GL_TEXTURE0 );
+ glBindTexture( GL_TEXTURE_2D, world.background_data );
+ glUniform1i( SHADER_UNIFORM( shader_background, "uTexMain" ), 0 );
+
+ glUniform3f( SHADER_UNIFORM( shader_background, "uOffset" ), -16, -16, 64 );
+ glUniform1f( SHADER_UNIFORM( shader_background, "uVariance" ), 0.02f );
+
+ glActiveTexture( GL_TEXTURE1 );
+ glBindTexture( GL_TEXTURE_2D, world.random_samples );
+ glUniform1i( SHADER_UNIFORM( shader_background, "uSamplerNoise" ), 1 );
+
+ draw_mesh( 0, 2 );
+
+ }
+
+
+ SHADER_USE( shader_tile_main );
+
+ m2x2f subtransform;
+ m2x2_identity( subtransform );
+ glUniformMatrix2fv( SHADER_UNIFORM( shader_tile_main, "uSubTransform" ), 1, GL_FALSE, (float *)subtransform );
+ glUniformMatrix3fv( SHADER_UNIFORM( shader_tile_main, "uPv" ), 1, GL_FALSE, (float *)vg_pv );
+ glUniform1f( SHADER_UNIFORM( shader_tile_main, "uGhost" ), 0.0f );
+ glUniform1f( SHADER_UNIFORM( shader_tile_main, "uForeground" ), 0.0f );
+
+ glEnable(GL_BLEND);
+ glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
+ glBlendEquation(GL_FUNC_ADD);
+
+ // Bind textures
+ vg_tex2d_bind( &tex_tile_data, 0 );
+ glUniform1i( SHADER_UNIFORM( shader_tile_main, "uTexGlyphs" ), 0 );
+
+ vg_tex2d_bind( &tex_wood, 1 );
+ glUniform1i( SHADER_UNIFORM( shader_tile_main, "uTexWood" ), 1 );
+
+ render_tiles( NULL, NULL, colour_default, colour_default );
+
+
+
+ SHADER_USE( shader_ball );
+ glUniformMatrix3fv( SHADER_UNIFORM( shader_ball, "uPv" ), 1, GL_FALSE, (float *)vg_pv );
+
+ vg_tex2d_bind( &tex_ball, 0 );
+ glUniform1i( SHADER_UNIFORM( shader_ball, "uTexMain" ), 0 );
+
+ // Draw 'fish'
+ if( world.simulating )
+ {
+ for( int i = 0; i < world.num_fishes; i ++ )
+ {
+ struct fish *fish = &world.fishes[i];
- if( cell->state & FLAG_CANAL )
- {
+ if( fish->alive == 0 )
+ continue;
+
+ if( fish->alive == -1 && (world.frame_lerp > fish->death_time) )
continue;
- }
- glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)x - 0.2f, (float)y - 0.15f, 1.0f );
- draw_mesh( 0, 2 );
+ v4f dot_colour = { 0.0f, 0.0f, 0.0f, 1.0f };
+ colour_code_v3( fish->payload, dot_colour );
+
+ glUniform3fv( SHADER_UNIFORM( shader_ball, "uColour" ), 1, dot_colour );
+ glUniform2fv( SHADER_UNIFORM( shader_ball, "uOffset" ), 1, fish->physics_co );
+ draw_mesh( 0, 32 );
}
+ }
+
+ SHADER_USE( shader_tile_main );
+
+ // Bind textures
+ vg_tex2d_bind( &tex_tile_data, 0 );
+ glUniform1i( SHADER_UNIFORM( shader_tile_main, "uTexGlyphs" ), 0 );
+
+ vg_tex2d_bind( &tex_wood, 1 );
+ glUniform1i( SHADER_UNIFORM( shader_tile_main, "uTexWood" ), 1 );
+ glUniform1f( SHADER_UNIFORM( shader_tile_main, "uForeground" ), 1.0f );
+ render_tiles( NULL, NULL, colour_default, colour_selected );
+
+ // Draw splitters
+
for( int y = 0; y < world.h; y ++ )
{
for( int x = 0; x < world.w; x ++ )
{
struct cell *cell = pcell((v2i){x,y});
- int selected = world.selected == y*world.w + x;
-
- if( cell->state & FLAG_SPLIT )
+
+ if( cell->config == k_cell_type_split )
{
- glUniform4f( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 0.9f, 0.9f, 0.9f, 1.0f );
- glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)x, (float)y, 1.0f );
-
- struct mesh *splitter = cell->state & FLAG_FLIP_FLOP? &world.splitter_r: &world.splitter_l;
+ float rotation = cell->state & FLAG_FLIP_FLOP? vg_rad( -45.0f ): vg_rad( 45.0f );
- use_mesh( splitter );
- draw_mesh( 0, splitter->elements );
- use_mesh( &world.tile );
+ if( cell->state & FLAG_FLIP_ROTATING )
+ {
+ if( (world.frame_lerp > curve_7_linear_section) )
+ {
+ float const rotation_speed = 0.4f;
+ if( (world.frame_lerp < 1.0f-rotation_speed) )
+ {
+ float t = world.frame_lerp - curve_7_linear_section;
+ t *= -2.0f * (1.0f/(1.0f-(curve_7_linear_section+rotation_speed)));
+ t += 1.0f;
+
+ rotation *= t;
+ }
+ else
+ rotation *= -1.0f;
+ }
+ }
+
+ m2x2_create_rotation( subtransform, rotation );
+
+ glUniformMatrix2fv( SHADER_UNIFORM( shader_tile_main, "uSubTransform" ), 1, GL_FALSE, (float *)subtransform );
+ glUniform4f( SHADER_UNIFORM( shader_tile_main, "uOffset" ), (float)x, (float)y + 0.125f, 0.0f, 0.0f );
+ draw_mesh( 0, 2 );
}
+ }
+ }
+
+ // Edit overlay
+ if( world.selected != -1 && !(world.data[ world.selected ].state & FLAG_CANAL) )
+ {
+ v2i new_begin = { world.tile_x - 2, world.tile_y - 2 };
+ v2i new_end = { world.tile_x + 2, world.tile_y + 2 };
+
+ world.data[ world.selected ].state ^= FLAG_CANAL;
+ map_reclassify( new_begin, new_end, 0 );
- if( (cell->state & FLAG_CANAL) && !selected )
- continue;
+ m2x2_identity( subtransform );
+ glUniform1f( SHADER_UNIFORM( shader_tile_main, "uGhost" ), 1.0f );
+ glUniformMatrix2fv( SHADER_UNIFORM( shader_tile_main, "uSubTransform" ), 1, GL_FALSE, (float *)subtransform );
+ glUniform2fv( SHADER_UNIFORM( shader_tile_main, "uMousePos" ), 1, world.tile_pos );
- glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)x, (float)y, 1.0f );
-
- v4f colour;
-
- if( cell->state & FLAG_WALL ) { v4_copy( (v4f){ 0.2f, 0.2f, 0.2f, 1.0f }, colour ); }
- else if( cell->state & FLAG_CANAL ) { v4_copy( (v4f){ 0.6f, 0.6f, 0.6f, 1.0f }, colour ); }
- else if( cell->state & FLAG_INPUT ) { v4_copy( (v4f){ 0.5f, 0.5f, 0.5f, 1.0f }, colour ); }
- else if( cell->state & FLAG_OUTPUT ) { v4_copy( (v4f){ 0.2f, 0.7f, 0.3f, 1.0f }, colour ); }
- else v4_copy( (v4f){ 0.9f, 0.9f, 0.9f, 1.0f }, colour );
-
- //if( cell->water[world.frame&0x1] )
- // v4_copy( (v4f){ 0.2f, 0.3f, 0.7f * (float)(cell->water[world.frame&0x1]) * (1.0f/16.0f), 1.0f }, colour );
-
- if( selected )
- v3_muls( colour, sinf( vg_time )*0.25f + 0.5f, colour );
-
- //if( cell->state & (FLAG_SPLIT) )
- // v4_copy( (v4f){ 0.75f, 0.75f, 0.02f, 1.0f }, colour );
- //if( cell->state & (FLAG_MERGER) )
- // v4_copy( (v4f){ 0.75f, 0.02f, 0.75f, 1.0f }, colour );
-
- glUniform4fv( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 1, colour );
-
- draw_mesh( 0, 2 );
- }
+ render_tiles( new_begin, new_end, colour_default, colour_default );
+
+ world.data[ world.selected ].state ^= FLAG_CANAL;
+ map_reclassify( new_begin, new_end, 0 );
}
+ //glDisable(GL_BLEND);
+
+ glDisable(GL_BLEND);
+
+ SHADER_USE( shader_tile_colour );
+ glUniformMatrix3fv( SHADER_UNIFORM( shader_tile_colour, "uPv" ), 1, GL_FALSE, (float *)vg_pv );
use_mesh( &world.circle );
+
+ int const filled_start = 0;
+ int const filled_count = 32;
+ int const empty_start = 32;
+ int const empty_count = 32*2;
// Draw i/o arrays
for( int i = 0; i < arrlen( world.io ); i ++ )
int posx = term->id % world.w;
int posy = (term->id - posx)/world.w;
int is_input = world.data[ term->id ].state & FLAG_INPUT;
-
- int const filled_start = 0;
- int const filled_count = 32;
- int const empty_start = 32;
- int const empty_count = 32*2;
-
+
v4f dot_colour = { 0.0f, 0.0f, 0.0f, 1.0f };
for( int j = 0; j < arrlen( term->conditions ); j ++ )
{
- glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)posx + 0.2f + 0.2f * (float)j, (float)posy + 0.2f, 0.1f );
+ float y_offset = is_input? 1.2f: -0.2f;
+ glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)posx + 0.2f + 0.2f * (float)j, (float)posy + y_offset, 0.1f );
if( is_input )
{
}
}
- // Draw 'fish'
if( world.simulating )
{
- float scaled_time = (vg_time-world.sim_start)*2.0f;
- float lerp = 1.0f-(scaled_time - (float)world.sim_frame);
-
- v4f dot_colour = { 0.0f, 0.0f, 0.0f, 1.0f };
-
- for( int i = 0; i < world.num_fishes; i ++ )
+ glUniform4f( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 0.0f, 0.0f, 0.0f, 1.0f );
+ glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), -0.5f + cosf( vg_time * 4.0f ) * 0.2f, sinf( vg_time * 4.0f ) * 0.2f + (float)world.h * 0.5f, 0.05f );
+ draw_mesh( filled_start, filled_count );
+ }
+
+ // Level selection UI
+ float ratio = ((float)vg_window_x/(float)vg_window_y);
+
+ m3x3f ui_view = M3X3_IDENTITY;
+ m3x3_scale( ui_view, (v3f){ 1.0f, -ratio, 1.0f } );
+ glUniformMatrix3fv( SHADER_UNIFORM( shader_tile_colour, "uPv" ), 1, GL_FALSE, (float *)ui_view );
+
+ // Calculate mouse in UIsp
+ v3f mouse_ui_space = { ((float)vg_mouse[0] / (float)(vg_window_x)) * 2.0f - 1.0f,
+ (((float)vg_mouse[1] / (float)(vg_window_y)) * 2.0f - 1.0f)*(1.0f/ratio), 0.0125f };
+
+ // Get selected level
+ const float selection_scale = 0.05f;
+ int const level_count = vg_list_size( level_pack_1 );
+ int level_select = -1;
+
+ if( mouse_ui_space[0] <= -0.9f )
+ {
+ float levels_range = (float)level_count*selection_scale*0.6f;
+ float level_offset = ((mouse_ui_space[1] + levels_range) / levels_range) * 0.5f * (float)level_count;
+ level_select = floorf( level_offset );
+
+ // Draw selector
+ if( level_select >= 0 && level_select < vg_list_size( level_pack_1 ) )
{
- struct fish *fish = &world.fishes[i];
+ glUniform4f( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 0.369768f, 0.3654f, 0.42f, 1.0f );
- if( !fish->alive )
- continue;
-
- colour_code_v3( fish->payload, dot_colour );
- glUniform4fv( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 1, dot_colour );
+ use_mesh( &world.tile );
+ glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ),
+ -1.0f,
+ (-(float)level_count + (float)level_select * 2.0f ) * selection_scale * 0.6f,
+ selection_scale
+ );
+ draw_mesh( 2, 2 );
- glUniform3f( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), (float)fish->pos[0] + 0.5f - (float)fish->dir[0]*lerp, (float)fish->pos[1] + 0.25f - (float)fish->dir[1]*lerp, 0.25f );
- draw_mesh( 0, 32 );
+ use_mesh( &world.circle );
+ }
+
+ if( vg_get_button_down( "primary" ) )
+ {
+ console_changelevel( 1, level_pack_1 + level_select );
}
}
+
+ glUniform4f( SHADER_UNIFORM( shader_tile_colour, "uColour" ), 0.4f, 0.39f, 0.45f, 1.0f );
+
+ // Draw levels
+ for( int i = 0; i < level_count; i ++ )
+ {
+ v3f level_ui_space = {
+ -0.97f,
+ (-(float)level_count + (float)i * 2.0f ) * selection_scale * 0.6f + selection_scale * 0.5f,
+ selection_scale * 0.5f
+ };
+
+ float scale = vg_clampf( 1.0f - fabsf(level_ui_space[1] - mouse_ui_space[1]) * 2.0f, 0.9f, 1.0f );
+ level_ui_space[2] *= scale;
+
+ glUniform3fv( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), 1, level_ui_space );
+ draw_mesh( empty_start, empty_count );
+ }
+
+ glUniform3fv( SHADER_UNIFORM( shader_tile_colour, "uOffset" ), 1, mouse_ui_space );
+ draw_mesh( empty_start, empty_count );
}
-void vg_ui(void){}
+void vg_ui(void)
+{
+ //ui_test();
+}