예제 #1
0
	def smooth_edges(self):
		print 'Smoothing edges....'
		t0 = libtcod.sys_elapsed_seconds()
		hmcopy = libtcod.heightmap_new(game.WORLDMAP_WIDTH, game.WORLDMAP_HEIGHT)
		mask = libtcod.heightmap_new(game.WORLDMAP_WIDTH, game.WORLDMAP_HEIGHT)
		for x in range(game.WORLDMAP_WIDTH):
			for y in range(game.WORLDMAP_HEIGHT):
				ix = x * 0.04
				if x > game.WORLDMAP_WIDTH / 2:
					ix = (game.WORLDMAP_WIDTH - x - 1) * 0.04
				iy = y * 0.04
				if y > game.WORLDMAP_HEIGHT / 2:
					iy = (game.WORLDMAP_HEIGHT - y - 1) * 0.04
				if ix > 1.0:
					ix = 1.0
				if iy > 1.0:
					iy = 1.0
				h = min(ix, iy)
				libtcod.heightmap_set_value(mask, x, y, h)
		libtcod.heightmap_normalize(mask)
		libtcod.heightmap_copy(game.heightmap, hmcopy)
		libtcod.heightmap_multiply_hm(hmcopy, mask, game.heightmap)
		libtcod.heightmap_normalize(game.heightmap)
		t1 = libtcod.sys_elapsed_seconds()
		print '    done! (%.3f seconds)' % (t1 - t0)
예제 #2
0
def test_heightmap():
    hmap = libtcodpy.heightmap_new(16, 16)
    repr(hmap)
    noise = libtcodpy.noise_new(2)

    # basic operations
    libtcodpy.heightmap_set_value(hmap, 0, 0, 1)
    libtcodpy.heightmap_add(hmap, 1)
    libtcodpy.heightmap_scale(hmap, 1)
    libtcodpy.heightmap_clear(hmap)
    libtcodpy.heightmap_clamp(hmap, 0, 0)
    libtcodpy.heightmap_copy(hmap, hmap)
    libtcodpy.heightmap_normalize(hmap)
    libtcodpy.heightmap_lerp_hm(hmap, hmap, hmap, 0)
    libtcodpy.heightmap_add_hm(hmap, hmap, hmap)
    libtcodpy.heightmap_multiply_hm(hmap, hmap, hmap)

    # modifying the heightmap
    libtcodpy.heightmap_add_hill(hmap, 0, 0, 4, 1)
    libtcodpy.heightmap_dig_hill(hmap, 0, 0, 4, 1)
    libtcodpy.heightmap_rain_erosion(hmap, 1, 1, 1)
    libtcodpy.heightmap_kernel_transform(hmap, 3, [-1, 1, 0], [0, 0, 0],
                                         [.33, .33, .33], 0, 1)
    libtcodpy.heightmap_add_voronoi(hmap, 10, 3, [1, 3, 5])
    libtcodpy.heightmap_add_fbm(hmap, noise, 1, 1, 1, 1, 4, 1, 1)
    libtcodpy.heightmap_scale_fbm(hmap, noise, 1, 1, 1, 1, 4, 1, 1)
    libtcodpy.heightmap_dig_bezier(hmap, [0, 16, 16, 0], [0, 0, 16, 16], 1, 1,
                                   1, 1)

    # read data
    libtcodpy.heightmap_get_value(hmap, 0, 0)
    libtcodpy.heightmap_get_interpolated_value(hmap, 0, 0)

    libtcodpy.heightmap_get_slope(hmap, 0, 0)
    libtcodpy.heightmap_get_normal(hmap, 0, 0, 0)
    libtcodpy.heightmap_count_cells(hmap, 0, 0)
    libtcodpy.heightmap_has_land_on_border(hmap, 0)
    libtcodpy.heightmap_get_minmax(hmap)

    libtcodpy.noise_delete(noise)
    libtcodpy.heightmap_delete(hmap)
예제 #3
0
def MasterWorldGen(
):  #------------------------------------------------------- * MASTER GEN * -------------------------------------------------------------

    print ' * World Gen START * '
    starttime = time.time()

    #Heightmap
    hm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)

    for i in range(50):
        libtcod.heightmap_add_hill(
            hm, randint(WORLD_WIDTH / 10, WORLD_WIDTH - WORLD_WIDTH / 10),
            randint(WORLD_HEIGHT / 10, WORLD_HEIGHT - WORLD_HEIGHT / 10),
            randint(12, 16), randint(6, 10))
    print '- Main Hills -'

    for i in range(200):
        libtcod.heightmap_add_hill(
            hm, randint(WORLD_WIDTH / 10, WORLD_WIDTH - WORLD_WIDTH / 10),
            randint(WORLD_HEIGHT / 10, WORLD_HEIGHT - WORLD_HEIGHT / 10),
            randint(2, 4), randint(6, 10))
    print '- Small Hills -'

    libtcod.heightmap_normalize(hm, 0.0, 1.0)

    noisehm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    noise2d = libtcod.noise_new(2, libtcod.NOISE_DEFAULT_HURST,
                                libtcod.NOISE_DEFAULT_LACUNARITY)
    libtcod.heightmap_add_fbm(noisehm, noise2d, 4, 4, 0, 0, 32, 1, 1)
    libtcod.heightmap_normalize(noisehm, 0.0, 1.0)
    libtcod.heightmap_multiply_hm(hm, noisehm, hm)
    print '- Apply Simplex -'

    PoleGen(hm, 0)
    print '- South Pole -'

    PoleGen(hm, 1)
    print '- North Pole -'

    TectonicGen(hm, 0)
    TectonicGen(hm, 1)
    print '- Tectonic Gen -'

    libtcod.heightmap_rain_erosion(hm, WORLD_WIDTH * WORLD_HEIGHT, 0.07, 0, 0)
    print '- Erosion -'

    libtcod.heightmap_clamp(hm, 0.0, 1.0)

    #Temperature
    temp = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    Temperature(temp, hm)
    libtcod.heightmap_normalize(temp, 0.0, 0.8)
    print '- Temperature Calculation -'

    #Precipitation

    preciphm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    Percipitaion(preciphm, temp)
    libtcod.heightmap_normalize(preciphm, 0.0, 0.8)
    print '- Percipitaion Calculation -'

    #Drainage

    drainhm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    drain = libtcod.noise_new(2, libtcod.NOISE_DEFAULT_HURST,
                              libtcod.NOISE_DEFAULT_LACUNARITY)
    libtcod.heightmap_add_fbm(drainhm, drain, 2, 2, 0, 0, 32, 1, 1)
    libtcod.heightmap_normalize(drainhm, 0.0, 0.8)
    print '- Drainage Calculation -'

    # VOLCANISM - RARE AT SEA FOR NEW ISLANDS (?) RARE AT MOUNTAINS > 0.9 (?) RARE AT TECTONIC BORDERS (?)

    elapsed_time = time.time() - starttime
    print ' * World Gen DONE *    in: ', elapsed_time, ' seconds'

    #Initialize Tiles with Map values
    World = [[0 for y in range(WORLD_HEIGHT)]
             for x in range(WORLD_WIDTH)]  #100x100 array
    for x in xrange(WORLD_WIDTH):
        for y in xrange(WORLD_HEIGHT):
            World[x][y] = Tile(libtcod.heightmap_get_value(hm, x, y),
                               libtcod.heightmap_get_value(temp, x, y),
                               libtcod.heightmap_get_value(preciphm, x, y),
                               libtcod.heightmap_get_value(drainhm, x, y), 0)

    print '- Tiles Initialized -'

    #Prosperity

    Prosperity(World)
    print '- Prosperity Calculation -'

    #Biome info to Tile

    for x in xrange(WORLD_WIDTH):
        for y in xrange(WORLD_HEIGHT):

            if World[x][y].height > 0.2:
                World[x][y].biomeID = 3
                if randint(1, 10) < 3:
                    World[x][y].biomeID = 5
            if World[x][y].height > 0.4:
                World[x][y].biomeID = 14
                if randint(1, 10) < 3:
                    World[x][y].biomeID = 5
            if World[x][y].height > 0.5:
                World[x][y].biomeID = 8
                if randint(1, 10) < 3:
                    World[x][y].biomeID = 14

            if World[x][y].temp <= 0.5 and World[x][y].precip >= 0.5:
                World[x][y].biomeID = 5
                if randint(1, 10) < 3:
                    World[x][y].biomeID = 14
            if World[x][y].temp >= 0.5 and World[x][y].precip >= 0.7:
                World[x][y].biomeID = 6

            if World[x][y].precip >= 0.7 and World[x][
                    y].height > 0.2 and World[x][y].height <= 0.4:
                World[x][y].biomeID = 2

            if World[x][y].temp > 0.75 and World[x][y].precip < 0.35:
                World[x][y].biomeID = 4

            if World[x][y].temp <= 0.22 and World[x][y].height > 0.2:
                World[x][y].biomeID = randint(11, 13)
            if World[x][y].temp <= 0.3 and World[x][y].temp > 0.2 and World[x][
                    y].height > 0.2 and World[x][y].precip >= 0.6:
                World[x][y].biomeID = 7

            if World[x][y].height > 0.75:
                World[x][y].biomeID = 9
            if World[x][y].height > 0.999:
                World[x][y].biomeID = 10
            if World[x][y].height <= 0.2:
                World[x][y].biomeID = 0
            if World[x][y].height <= 0.1:
                World[x][y].biomeID = 0

    print '- BiomeIDs Atributed -'

    #River Gen

    for x in range(5):
        RiverGen(World)
    print '- River Gen -'

    #Free Heightmaps
    libtcod.heightmap_delete(hm)
    libtcod.heightmap_delete(temp)
    libtcod.heightmap_delete(noisehm)

    print ' * Biomes/Rivers Sorted *'

    return World
예제 #4
0
def MasterWorldGen():    #------------------------------------------------------- * MASTER GEN * -------------------------------------------------------------

    print ' * World Gen START * '
    starttime = time.time()

    #Heightmap
    hm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)

    for i in range(50):
        libtcod.heightmap_add_hill(hm, randint(WORLD_WIDTH/10,WORLD_WIDTH- WORLD_WIDTH/10), randint(WORLD_HEIGHT/10,WORLD_HEIGHT- WORLD_HEIGHT/10), randint(12,16), randint(6,10))
    print '- Main Hills -'

    for i in range(200):
        libtcod.heightmap_add_hill(hm, randint(WORLD_WIDTH/10,WORLD_WIDTH- WORLD_WIDTH/10), randint(WORLD_HEIGHT/10,WORLD_HEIGHT- WORLD_HEIGHT/10), randint(2,4), randint(6,10))
    print '- Small Hills -'

    libtcod.heightmap_normalize(hm, 0.0, 1.0)

    noisehm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    noise2d = libtcod.noise_new(2,libtcod.NOISE_DEFAULT_HURST, libtcod.NOISE_DEFAULT_LACUNARITY)
    libtcod.heightmap_add_fbm(noisehm, noise2d,4, 4, 0, 0, 64, 1, 1)
    libtcod.heightmap_normalize(noisehm, 0.0, 1.0)
    libtcod.heightmap_multiply_hm(hm, noisehm, hm)
    print '- Apply Simplex -'

    PoleGen(hm, 0)
    print '- South Pole -'

    PoleGen(hm, 1)
    print '- North Pole -'

    TectonicGen(hm,0)
    TectonicGen(hm,1)
    print '- Tectonic Gen -'

    libtcod.heightmap_rain_erosion(hm, WORLD_WIDTH*WORLD_HEIGHT ,0.07,0,0)
    print '- Erosion -'

    libtcod.heightmap_clamp(hm, 0.0, 1.0)
      
    #Temperature
    temp = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)   
    Temperature(temp,hm)
    libtcod.heightmap_normalize(temp, 0.0, 0.8)
    print '- Temperature Calculation -'     

    #Precipitation

    preciphm = libtcod.heightmap_new(WORLD_WIDTH, WORLD_HEIGHT)
    Percipitaion(preciphm)
    libtcod.heightmap_normalize(preciphm, 0.0, 0.8)
    print '- Percipitaion Calculation -'  
      
    # VOLCANISM - RARE AT SEA FOR NEW ISLANDS (?) RARE AT MOUNTAINS > 0.9 (?) RARE AT TECTONIC BORDERS (?)

    #Initialize Tiles with Map values
    World = [[0 for y in range(WORLD_HEIGHT)] for x in range(WORLD_WIDTH)] #100x100 array
    for x in xrange(WORLD_WIDTH):
        for y in xrange(WORLD_HEIGHT):
                World[x][y] = Tile(libtcod.heightmap_get_value(hm, x, y),
                                    libtcod.heightmap_get_value(temp, x, y),
                                    libtcod.heightmap_get_value(preciphm, x, y),
                                    0)      

    print '- Tiles Initialized -'

    # - Biome info to Tiles -

    for x in xrange(WORLD_WIDTH):
        for y in xrange(WORLD_HEIGHT):
            
            if World[x][y].height > 0.2:
                World[x][y].biomeID = 3
                if randint(1,10) < 3:
                    World[x][y].biomeID = 5
            if World[x][y].height > 0.4:
                World[x][y].biomeID = 14
                if randint(1,10) < 3:
                    World[x][y].biomeID = 5
            if World[x][y].height > 0.5:
                World[x][y].biomeID = 8
                if randint(1,10) < 3:
                    World[x][y].biomeID = 14

            if World[x][y].temp <= 0.5 and World[x][y].precip >= 0.5:
                World[x][y].biomeID = 5
                if randint(1,10) < 3:
                    World[x][y].biomeID = 14
            if World[x][y].temp >= 0.5 and World[x][y].precip >= 0.7:
                World[x][y].biomeID = 6

            if World[x][y].precip >= 0.7 and World[x][y].height > 0.2 and World[x][y].height <= 0.4:
                World[x][y].biomeID = 2

            if World[x][y].temp > 0.75 and World[x][y].precip < 0.35:
                World[x][y].biomeID = 4

            if World[x][y].temp <= 0.22 and World[x][y].height > 0.2:
                World[x][y].biomeID = randint(11,13)
            if World[x][y].temp <= 0.3 and World[x][y].temp > 0.2 and World[x][y].height > 0.2 and World[x][y].precip >= 0.6:
                World[x][y].biomeID = 7
                  
            if World[x][y].height > 0.75:
                World[x][y].biomeID = 9
            if World[x][y].height > 0.999:
                World[x][y].biomeID = 10                  
            if World[x][y].height <= 0.2:
                World[x][y].biomeID = 0
            if World[x][y].height <= 0.1:
                World[x][y].biomeID = 0                  

    print '- BiomeIDs Atributed -'
      
    #River Gen
      
    for x in range(2):
        RiverGen(hm, World)
    print '- River Gen -'

    #Free Heightmaps
    libtcod.heightmap_delete(hm)
    libtcod.heightmap_delete(temp)
    libtcod.heightmap_delete(noisehm)                       

    elapsed_time = time.time() - starttime
    print ' * World Gen DONE *    in: ',elapsed_time,' seconds'

    return World