@ -3,297 +3,136 @@ require"hexyz"
math.randomseed ( os.time ( ) )
math.randomseed ( os.time ( ) )
--[[============================================================================
----- GLOBALS -----
============================================================================ ] ] --
-- Ethan Schoonover Solarized Colorscheme w/ Eigengrau
local EIGENGRAU = vec4 ( 0.08 , 0.08 , 0.11 , 1 )
local BASE03 = vec4 ( 0 , 0.16 , 0.21 , 1 )
local BASE02 = vec4 ( 0.02 , 0.21 , 0.25 , 1 )
local BASE01 = vec4 ( 0.34 , 0.43 , 0.45 , 1 )
local BASE00 = vec4 ( 0.39 , 0.48 , 0.51 , 1 )
local BASE0 = vec4 ( 0.51 , 0.58 , 0.58 , 1 )
local BASE1 = vec4 ( 0.57 , 0.63 , 0.63 , 1 )
local BASE2 = vec4 ( 0.93 , 0.90 , 0.83 , 1 )
local BASE3 = vec4 ( 0.99 , 0.96 , 0.89 , 1 )
local YELLOW = vec4 ( 0.70 , 0.53 , 0 , 1 )
local ORANGE = vec4 ( 0.79 , 0.29 , 0.08 , 1 )
local RED = vec4 ( 0.86 , 0.19 , 0.18 , 1 )
local MAGENTA = vec4 ( 0.82 , 0.21 , 0.50 , 1 )
local VIOLET = vec4 ( 0.42 , 0.44 , 0.76 , 1 )
local BLUE = vec4 ( 0.14 , 0.54 , 0.82 , 1 )
local CYAN = vec4 ( 0.16 , 0.63 , 0.59 , 1 )
local GREEN = vec4 ( 0.52 , 0.60 , 0 , 1 )
local win = am.window
local win = am.window
{
{
-- Base Resolution = 3/4 * WXGA standard 16:10
-- Base Resolution = 3/4 * WXGA standard 16:10
width = 1280 * 3 / 4 , -- 960px
width = 1280 * 3 / 4 , -- 960px
height = 800 * 3 / 4 , -- 600px
height = 800 * 3 / 4 , -- 600px
clear_color = EIGENGRAU
}
}
local curtain = am.rect ( win.left , win.top , win.right , win.bottom
, vec4 ( 0 , 0 , 0 , 0.7 ) ) -- Color
local map
local world
local home
local home_node
--local log = io.open(os.date("log %c.txt"), "w")
--[[============================================================================
----- ROUTINES -----
============================================================================ ] ] --
function find_home ( )
home = spiral_map ( vec2 ( 23 , 4 ) , 2 )
home_node = am.group ( )
repeat
local happy = true
-- Template for Buttons
function rect_button ( text )
return am.group
{
am.rect ( - 150 , - 20 , 150 , 20 , vec4 ( 0 ) ) : action ( am.tween ( 1 , { color = BASE2 { a = 0.4 } } ) ) ,
am.text ( text , vec4 ( 0 ) ) : action ( am.tween ( 1 , { color = BASE02 } ) )
}
end
for i , h in pairs ( home ) do
local elevation = hash_retrieve ( map , h )
--
function text_field ( tag )
local field = am.text ( " " ) : action ( function ( )
-- Special Cases
if win : key_pressed ( " backspace " ) then
field.text = field.text : sub ( 1 , - 2 )
elseif win : key_pressed ( " enter " ) then
field.text = " "
-- I Only Use This To Get Seeds At The Moment
elseif win : key_pressed ( " 0 " ) then field.text = field.text .. 0
elseif win : key_pressed ( " 1 " ) then field.text = field.text .. 1
elseif win : key_pressed ( " 2 " ) then field.text = field.text .. 2
elseif win : key_pressed ( " 3 " ) then field.text = field.text .. 3
elseif win : key_pressed ( " 4 " ) then field.text = field.text .. 4
elseif win : key_pressed ( " 5 " ) then field.text = field.text .. 5
elseif win : key_pressed ( " 6 " ) then field.text = field.text .. 6
elseif win : key_pressed ( " 7 " ) then field.text = field.text .. 7
elseif win : key_pressed ( " 8 " ) then field.text = field.text .. 8
elseif win : key_pressed ( " 9 " ) then field.text = field.text .. 9
end
end )
return field : tag ( tag )
end
if not elevation then -- hex not in map
elseif elevation > 0.5 or elevation < - 0.5 then
happy = false
elseif not happy then
home = spiral_map ( h , 2 )
home_node = am.group ( )
-- Tween Multiple Nodes of the Same Type
function multitween ( nodes , time , values )
for _ , node in pairs ( nodes ) do
node : action ( am.tween ( time , values ) )
else
local center = hex_to_pixel ( h , vec2 ( 11 ) )
local color = vec4 ( 0.5 )
local node = am.circle ( center , 4 , color , 4 )
home_node : append ( node )
end
end
end
end
until happy
return home_node
end
-- Returns Appropriate Tile Color for Specified Elevation
function color_at ( elevation )
function color_at ( elevation )
if elevation < - 0.5 then -- Lowest Elevation : Impassable
if elevation < - 0.5 then -- Lowest Elevation : Impassable
return vec4 ( 0.10 , 0.30 , 0.40 , ( elevation + 1.2 ) / 2 )
return vec4 ( 0.10 , 0.30 , 0.40 , ( elevation + 1.4 ) / 2 + 0.2 )
elseif elevation < 0 then -- Med-Low Elevation : Passable
elseif elevation < 0 then -- Med-Low Elevation : Passable
return vec4 ( 0.10 , 0.25 , 0.10 , ( elevation + 1.8 ) / 2 )
return vec4 ( 0.10 , 0.25 , 0.10 , ( elevation + 1.8 ) / 2 + 0.2 )
elseif elevation < 0.5 then -- Med-High Elevation : Passable
elseif elevation < 0.5 then -- Med-High Elevation : Passable
return vec4 ( 0.25 , 0.20 , 0.10 , ( elevation + 1.6 ) / 2 )
else -- Highest Elevation : Impassable
return vec4 ( 0.15 , 0.30 , 0.20 , ( elevation + 1.0 ) / 2 )
end
end
return vec4 ( 0.25 , 0.20 , 0.10 , ( elevation + 1.6 ) / 2 + 0.2 )
-- Handler for Scoring
function keep_score ( )
local offset = am.current_time ( )
win.scene : action ( function ( )
win.scene : remove ( " time " )
local time_str = string.format ( " %.2f " , am.current_time ( ) - offset )
win.scene : append ( am.translate ( - 374 , win.top - 10 )
^ am.text ( time_str ) : tag " time " )
end )
end
elseif elevation < 1 then -- Highest Elevation : Impassable
return vec4 ( 0.15 , 0.30 , 0.20 , ( elevation + 1.0 ) / 2 + 0.2 )
-- In-Game Pause Menu
function pause ( )
win.scene : append ( curtain : tag " curtain " )
win.scene : append ( am.group
{
am.rect ( - 200 , 150 , 200 , - 150 , BASE03 { a = 0.9 } )
} : tag " menu " )
-- Event Handler
win.scene : action ( function ( )
-- Back to Main Game
if win : key_pressed ( " escape " ) then
win.scene : remove ( " curtain " ) ; win.scene : remove ( " menu " )
game_action ( ) ; return true
else
return vec4 ( 0.5 , 0.5 , 0.5 , 1 )
end
end
end )
end
end
-- Returns Node
function draw_ ( map )
function draw_ ( map )
local world = am.group ( ) : tag " world "
world = am.group ( )
for hex , elevation in pairs ( map ) do
for hex , elevation in pairs ( map ) do
local off = hex_to_offset ( hex )
local off = hex_to_offset ( hex )
local mask = vec4 ( 0 , 0 , 0 , math.max ( ( ( off.x - 23 ) / 45 ) ^ 2 ,
( ( - off.y - 16 ) / 31 ) ^ 2 ) )
local mask = vec4 ( 0 , 0 , 0 , math.max ( ( ( off.x - 23.5 ) / 46 ) ^ 2 ,
( ( - off.y - 16.5 ) / 32 ) ^ 2 ) )
local color = color_at ( elevation ) - mask
local color = color_at ( elevation ) - mask
local node = am.circle ( hex_to_pixel ( hex , vec2 ( 11 ) ) , 11 , vec4 ( 0 ) , 6 )
local node = am.circle ( hex_to_pixel ( hex , vec2 ( 11 ) ) , 11 , vec4 ( 0 ) , 6 )
node : action ( am.tween ( 0.3 , { color = color } ) ) -- fade in
world : append ( node : tag ( tostring ( hex ) ) ) -- unique identifier
end
return world
end
--
function ghandler ( game )
win.scene : remove ( " coords " ) ; win.scene : remove ( " selected " )
-- Pause Game
if win : key_pressed ( " escape " ) then
pause ( ) ; return true
: action ( am.tween ( 5 , { color = color } , am.ease . out ( am.ease . hyperbola ) ) )
world : append ( node : tag ( tostring ( hex ) ) )
end
end
local hex = pixel_to_hex ( win : mouse_position ( ) , vec2 ( 11 ) ) - vec2 ( 10 , 10 )
local mouse = hex_to_offset ( hex )
world : append ( find_home ( ) )
-- Check if Mouse is Within Bounds of Game Map
if mouse.x > 0 and mouse.x < map.width and
- mouse.y > 0 and - mouse.y < map.height then -- North is Positive
local text = am.text ( string.format ( " %d,%d " , mouse.x , mouse.y ) )
game : append ( am.translate ( 450 , 290 ) ^ text : tag " coords " )
local color = vec4 ( 0 , 0 , 0 , 0.4 )
local pix = hex_to_pixel ( hex , vec2 ( 11 ) )
game : append ( am.circle ( pix , 11 , color , 6 ) : tag " selected " )
end
end
-- Begin Game - From Seed or Random Seed (if ommitted)
function game_init ( seed )
local game = am.group ( )
game : append ( am.rect ( win.left , win.top , - 268 , win.bottom , BASE03 ) )
map = rectangular_map ( 45 , 31 , seed )
game : action ( ghandler )
win.scene = am.group ( am.translate ( - 268 , - 300 ) ^ draw_ ( map ) , game )
end
-- Title Action
function thandler ( title )
local mouse = win : mouse_position ( )
if mouse.x > - 150 and mouse.x < 150 then
-- Button 1
if mouse.y > - 70 and mouse.y < - 30 then
title " button1 " " rect " : action ( am.tween ( 0.5 , { color = BASE2 { a = 1 } } ) )
if win : mouse_pressed ( " left " ) then
win.scene : action ( am.play ( am.sfxr_synth ( 57784609 ) ) )
game_init ( map.seed )
return true
return am.translate ( - 278 , - 318 ) ^ world : tag " world "
end
end
-- Button 2
elseif mouse.y > - 120 and mouse.y < - 80 then
title " button2 " " rect " : action ( am.tween ( 0.5 , { color = BASE2 { a = 1 } } ) )
function spawner ( world )
if win : mouse_pressed ( " left " ) then
win.scene : action ( am.play ( am.sfxr_synth ( 91266909 ) ) )
if math.random ( 10 ) == 1 then -- chance to spawn
local spawn_position
repeat
-- ensure we spawn on an random tile along the map's edges
local x , y = math.random ( 46 ) , math.random ( 33 )
if math.random ( ) < 0.5 then
x = math.random ( 0 , 1 ) * 47
else
y = math.random ( 0 , 1 ) * 33
end
end
spawn_position = offset_to_hex ( vec2 ( x , y ) )
-- Button 3
elseif mouse.y > - 170 and mouse.y < - 130 then
-- ensure that we spawn somewhere that is passable: mid-elevation
local e = hash_retrieve ( map , spawn_position )
until e and e < 0.5 and e > - 0.5
title " button3 " " rect " : action ( am.tween ( 0.5 , { color = BASE2 { a = 1 } } ) )
local mob = am.circle ( hex_to_pixel ( spawn_position , vec2 ( 11 ) ) , 4 , vec4 ( 1 ) , 6 )
: action ( coroutine.create ( function ( mob )
local dead = false
repeat
local neighbours = hex_neighbours ( pixel_to_hex ( mob.center , vec2 ( 11 ) ) )
local candidates = { }
for _ , h in pairs ( neighbours ) do
if win : mouse_pressed ( " left " ) then
local synth_seed = math.random ( 100000000 )
win.scene : action ( am.play ( am.sfxr_synth ( synth_seed ) ) )
print ( synth_seed )
local e = hash_retrieve ( map , h )
if e and e < 0.5 and e > - 0.5 then
table.insert ( candidates , h )
end
end
-- Button 4
elseif mouse.y > - 220 and mouse.y < - 180 then
title " button4 " " rect " : action ( am.tween ( 0.5 , { color = BASE2 { a = 1 } } ) )
if win : mouse_pressed ( " left " ) then
win.scene : action ( am.play ( am.sfxr_synth ( 36002209 ) ) )
end
end
else
multitween ( { title " button1 " " rect " , title " button2 " " rect " ,
title " button3 " " rect " , title " button4 " " rect " } ,
0.5 , { color = BASE2 { a = 0.4 } } )
end
else
multitween ( { title " button1 " " rect " , title " button2 " " rect " ,
title " button3 " " rect " , title " button4 " " rect " } ,
0.5 , { color = BASE2 { a = 0.4 } } )
local move = candidates [ math.random ( # candidates ) ]
am.wait ( am.tween ( mob , 1 , { center = hex_to_pixel ( move , vec2 ( 11 ) ) } ) )
until dead
end ) )
world : append ( mob )
end
end
end
end
-- Setup and Display Title Screen
function title_init ( )
local title = am.group ( )
title : append ( am.translate ( 0 , - 50 ) ^ rect_button ( " NEW SCENARIO " ) : tag " button1 " )
title : append ( am.translate ( 0 , - 100 ) ^ rect_button ( " LOREMIPSUM " ) : tag " button2 " )
title : append ( am.translate ( 0 , - 150 ) ^ rect_button ( " FUN BUTTON " ) : tag " button3 " )
title : append ( am.translate ( 0 , - 200 ) ^ rect_button ( " SETTINGS " ) : tag " button4 " )
map = hexagonal_map ( 45 )
backdrop = am.scale ( 1.3 ) ^ am.rotate ( 0 ) ^ draw_ ( map )
backdrop : action ( function ( )
backdrop " rotate " . angle = am.frame_time / 40 + 45
end )
-- Event Handler
title : action ( thandler )
win.scene = am.group ( backdrop , title )
end
function game_init ( seed )
local bg = am.rect ( - 480 , 300 , - 268 , - 300 , vec4 ( 0.12 , 0.3 , 0.3 , 1 ) )
map = rectangular_map ( 46 , 33 )
-- Alias
function init ( )
title_init ( )
math.randomseed ( map.seed )
win.scene = am.group ( draw_ ( map ) : action ( spawner ) , bg )
end
end
--=============================================================================
----- Main -----
init ( )
--
game_init ( )