Viens rassembler les indices et bouts de code Python chaque jour de l'Avent ; sois parmi les premiers à passer l'une des portes pour gagner de superbes cadeaux de Noël !
Les tiles déjà ou prochainement affichées sont toutes des images converties en Python à l'aide d'img2calc.
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from math import ceil
def nop(*argv): pass
show, wait = nop, nop
neg_fill_rect = False
has_color = True
try: # NumWorks, NumWorks + KhiCAS, TI-Nspire CX + KhiCAS
import kandinsky
fill_rect = kandinsky.fill_rect
screen_w, screen_h = 320, 222
neg_fill_rect = True
except:
try: # TI
import ti_draw
try: # TI-Nspire CX II
ti_draw.use_buffer()
show = ti_draw.paint_buffer
except: # TI-83PCE/84+CE Python
wait = ti_draw.show_draw
screen_w, screen_h = ti_draw.get_screen_dim()
try: # check TI-83PCE/84+CE ti_draw 1.0 fill_rect bug
ti_draw.fill_rect(0,0,1,1)
def fill_rect(x, y, w, h, c):
ti_draw.set_color(c[0], c[1], c[2])
ti_draw.fill_rect(x, y, w, h)
except: # workaround
def fill_rect(x, y, w, h, c):
ti_draw.set_color(c[0], c[1], c[2])
ti_draw.fill_rect(x - 1, y - 1, w + 2, h + 2)
except:
try: # Casio Graph 90/35+E II, fx-9750/9860GIII, fx-CG50
import casioplot
casioplot.set_pixel(0, 0, (0, 0, 255))
col = casioplot.get_pixel(0, 0)
has_color = col[0] != col[2]
screen_w, screen_h = has_color and (384, 192) or (128, 64)
show = casioplot.show_screen
def fill_rect(x, y, w, h, c):
for dy in range(h):
for dx in range(w):
casioplot.set_pixel(x + dx, y + dy, c)
except:
try: # HP Prime
import hpprime
screen_w, screen_h = hpprime.grobw(0), hpprime.grobh(0)
hpprime.dimgrob(1, screen_w, screen_h, 0)
def col3_2_rgb(c, bits=(8,8,8), bgr=1):
return c[2*bgr]//2**(8 - bits[0]) + c[1]//2**(8 - bits[1])*2**bits[0] + c[2*(not(bgr))]//2**(8-bits[2])*2**(bits[0] + bits[1])
def fill_rect(x, y, w, h, c):
hpprime.fillrect(1, x, y, w, h, col3_2_rgb(c), col3_2_rgb(c))
def show():
hpprime.strblit(0, 0, 0, screen_w, screen_h, 1)
def wait():
while hpprime.keyboard(): pass
while not(hpprime.keyboard()): pass
except:
pass
if not neg_fill_rect:
_fill_rect = fill_rect
def fill_rect(x, y, w, h, c):
if w < 0:
x += w
w = -w
if h < 0:
y += h
h = -h
_fill_rect(x, y, w, h, c)
def draw_image(rle, x0, y0, w, pal, zoomx=1, zoomy=1, itransp=-1):
if not has_color:
pal = list(pal)
g_min, g_max = 255, 0
for k in range(len(pal)):
c = pal[k]
g = 0.299*c[0] + 0.587*c[1] + 0.114*c[2]
g_min = min(g_min, g)
g_max = max(g_max, g)
pal[k] = g
for k in range(len(pal)):
pal[k] = pal[k]<(g_min + g_max) / 2 and (0,0,0) or (255,255,255)
i, x = 0, 0
x0, y0 = int(x0), int(y0)
nvals = len(pal)
nbits = 0
nvals -= 1
while(nvals):
nvals >>= 1
nbits += 1
maskval = (1 << nbits) - 1
maskcnt = (0xFF >> nbits >> 1) << nbits
while i<len(rle):
v = rle[i]
mv = v & maskval
c = (v & maskcnt) >> nbits
if (v & 0b10000000 or nbits == 8):
i += 1
c |= rle[i] << (7 - nbits + (nbits == 8))
c = (c + 1)
while c:
cw = min(c, w - x)
if mv != itransp:
fill_rect(x0 + x*zoomx, y0, cw*zoomx, zoomy, pal[mv])
c -= cw
x = (x + cw) % w
y0 += x == 0 and zoomy
i += 1
palettes = (
(
(247,176,36),(247,207,73),(231,89,0),(247,131,8),
),
)
images = (
(
b"\b\x05\n?\n\x05\x18\x05\n7\n\x05\x20\x05\n/\n\x05(\x05\n'\n\x050\x05\n\x1f\n\x058\x05\n\x17\n\x05@\x05\n\x0f\n\x05H\x05\n\a\n\x05P\x05\x16\x05X\x05\x0e\x05`\x05\x06\x05d\a\x06\a`\a\x02\x04\x02\aX\a\x02\x0c\x02\aP\a\x02\x04\a\x04\x02\aH\a\x02\x04"
b"\x0f\x04\x02\a@\a\x02\x04\x17\x04\x02\a8\a\x02\x04\x1f\x04\x02\a0\a\x02\x04'\x04\x02\a(\a\x02\x04/\x04\x02\a\x20\a\x02\x047\x04\x02\a\x18\a\x02\x04?\x04\x02\a\x10\a\x02\x04G\x04\x02\a\b\a\x02\x04O\x04\x02\a\x00\a\x02\x04W\x04\x02\x0b\x02\x04_\x04"
b"\x02\x03\x02\x04g\x04\x0eg\n\x01\n_\n\t\nW\n\x05\x00\x05\nO\n\x05\b\x05\nG\n\x05\x04"
),
)
for y in range(ceil(screen_h / 32)):
for x in range(ceil(screen_w / 32)):
draw_image(images[0], x*32, y*32, 32, palettes[0])
show()
palettes = (
(
(7,97,182),(55,139,223),(99,176,247),(141,216,247),
),
)
images = (
(
b"\x80\x01!\x14!\x18\x1e\x19\x1e\x19\x06\x17\x1a\x1f\x1a\x1f\x1a\x1f\x1a\x17\x06\x19\x1e\x19\x1e\x18!\x14!\x80\x01"
),
)
draw_image(images[0], 0, screen_h-16, 16, palettes[0])
show()
wait()
Lien : lots et ressources