def test_fire(self):
Bg = mark_util.MarkBg
Fg = mark_util.MarkFg
Width = 4
Height = 5
Area = area.make_empty(Width, Height, Bg)
AreaDuplicated = area.duplicate(
Area) # later we modify Area with burning
Burning = [(1, 1), (2, 3)]
area.fire(Area, Burning, [Fg], ["Left"])
Wanted = ("...." "FF.." "...." "FFF." "....")
self.assertEqual(Wanted, area.to_string(Area, OneLine=True))
# The duplicated Area is independent from burning Area, made with deepcopy
# the duplicated area has to be emtpy, like a new empty area.
# area is a complex struct, and we made a real duplication, not a shallow copy
self.assertEqual(area.to_string(area.make_empty(Width, Height, Bg)),
area.to_string(AreaDuplicated))
##########################################
Area2 = area.make_empty(Width, Height, Bg)
Area2[2][1] = "X"
Burning = [(1, 1), (2, 3)]
area.fire(Area2, Burning, [Fg, "X"], ["Up"])
Wanted = (".F.." ".FX." "..F." "..F." "....")
self.assertEqual(Wanted, area.to_string(Area2, OneLine=True))
def test_area_to_string(self):
Bg = mark_util.MarkBg
Fg = mark_util.MarkFg
# there are two columns in the Area
Area = [[Bg, Bg, Bg], [Bg, Fg, Bg]]
Wanted = "..\n.O\n.."
self.assertEqual(Wanted, area.to_string(Area))
def test_area_coord_insert(self):
Bg = mark_util.MarkBg
Fg = mark_util.MarkFg
Area = area.make_empty(5, 6, Bg)
Mark = {"Coords": {(1, 1): 1, (2, 2): 2, (3, 3): 3, (1, 3): 4}}
area.coords_insert_from_mark(Area, Mark, Fg, Xshift=1, Yshift=1)
Wanted = (".....\n" ".....\n" "..O..\n" "...O.\n" "..O.O\n" ".....")
self.assertEqual(Wanted, area.to_string(Area))
def spirals_display(Prg,
Spirals,
Width,
Height,
SleepTime=0,
Prefix="",
PauseAtEnd=0,
PauseAtStart=0,
SaveAsFilename=None):
SaveAsTxt = list()
CharBg = "🔸" #small orange diamond
CharsetColorful = [
"😎", # smiling face with sunglasses
"🔘", #radio button,
"🌼",
"🍀",
"🐙",
"🎃", # jack-o-lantern
"🐸", # frog face
"🎅", # father christmas
"🐨", # koala
"🎁", # Wrapped present,
"🌷", # tulip
"🏀", # basketball and hoop
"😈", # smiling face with horns
"🕐", # clock face, one o'clock
"🔴", #large red circle
"🔵", #large blue circle,
"🔆", # high brightness symbol
"💜", #purple heart
"🔅", # low brightness symbol
"🌑", # new moon symbol
"💡", # electric light bulb
]
Area = area.make_empty(Width, Height, CharBg)
print(
area.to_string(Area,
Prefix=Prefix,
AfterString="\n\n",
BeforeString="\n" * 33))
time.sleep(PauseAtStart)
for Coords in Spirals.values():
CharColorful = CharsetColorful.pop(0)
CharsetColorful.append(
CharColorful) # shifting elements in Colorful chars
for X, Y in Coords:
Area[X][Y] = CharColorful
AreaTxt = area.to_string(Area,
Prefix=Prefix,
AfterString="\n\n",
BeforeString="\n" * 33)
SaveAsTxt.append(AreaTxt)
print(AreaTxt)
if SleepTime:
time.sleep(SleepTime)
if PauseAtEnd:
time.sleep(PauseAtEnd)
if SaveAsFilename:
util.file_write(Prg, os.path.join(Prg["DirTmpPath"], SaveAsFilename),
"".join(SaveAsTxt))
def test_fire_from_side(self):
Bg = mark_util.MarkBg
Fg = mark_util.MarkFg
Width = 6
Height = 5
########### Test from Right #############################
Area = area.make_empty(Width, Height, Bg)
# this is a ⊃ math sign, more or less :-)
Area[2][1] = Fg; Area[3][1] = Fg; Area[4][1] = Fg
pass; Area[4][2] = Fg
Area[2][3] = Fg; Area[3][3] = Fg; Area[4][3] = Fg
FireInfo = area.fire_from_side(Area, "Right", [Fg])
Wanted = ("FFFFFF"
"FFOOOF"
"FF..OF"
"FFOOOF"
"FFFFFF")
self.assertEqual(Wanted, area.to_string(Area, OneLine=True))
self.assertEqual(21, FireInfo["BurntAreaSize"])
########### Test from Left#############################
Area = area.make_empty(Width, Height, Bg)
# stylized I sign
Area[2][1] = Fg; Area[3][1] = Fg; Area[4][1] = Fg
pass; Area[3][2] = Fg
Area[2][3] = Fg; Area[3][3] = Fg; Area[4][3] = Fg
area.fire_from_side(Area, "Left", [Fg])
Wanted = ("FFFFFF"
"FFOOOF"
"FFFO.F"
"FFOOOF"
"FFFFFF")
self.assertEqual(Wanted, area.to_string(Area, OneLine=True))
########### Test from Top #############################
Width = 5
Height = 5
Area = area.make_empty(Width, Height, Bg)
Area[0][1] = Fg
Area[1][1] = Fg
Area[2][1] = Fg
Area[3][1] = Fg
Area[4][1] = Fg
area.fire_from_side(Area, "Top", [Fg])
Wanted = ("FFFFF"
"OOOOO"
"....."
"....."
".....")
self.assertEqual(Wanted, area.to_string(Area, OneLine=True))
########### Test from Bottom #############################
Width = 5
Height = 5
Area = area.make_empty(Width, Height, Bg)
Area[0][1] = Fg
Area[1][1] = Fg
Area[2][1] = Fg
Area[3][1] = Fg
Area[4][1] = Fg
area.fire_from_side(Area, "Bottom", [Fg])
Wanted = ("....."
"OOOOO"
"FFFFF"
"FFFFF"
"FFFFF")
self.assertEqual(Wanted, area.to_string(Area, OneLine=True))
def mark_area_convex(Prg, Marks, MarkId, MarkStats):
Mark = Marks[MarkId]
AreaConvex = mark_util.mark_area_convex(Prg, Mark)
mark_info_insert(Prg, MarkStats, MarkId,
[("mark_area_convex", "\n" + area.to_string(AreaConvex))])
def mark_area_select_closed_empty_area(Prg, Marks, MarkId, MarkStats):
Fg = mark_util.MarkFg
Bg = mark_util.MarkBg
Mark = Marks[MarkId]
AreaFired = mark_util.mark_to_area(Mark)
# on right side you can find the closed empty areas:
# ....OOOOOOO... signed with '.' chars, FFFFOOOOOOOFFF
# ..OOOOOOOOOO.. F means: fired/reached from outside FFOOOOOOOOOOFF
# .OOOOOOOOOOOO. FOOOOOOOOOOOOF
# .OOOOO..OOOOO. the closed block size = 14 in this case: FOOOOO..OOOOOF
# OOOO......OOOO OOOO......OOOO
# OOOO......OOOO OOOO......OOOO
# OOOOOOOOOOOOOO all direction is important here, because: OOOOOOOOOOOOOO
# OOOOOOOOOOOOOO OOOOOOOOOOOOOO
# OOO........... in case of letter e, if you fire from right OOOFFFFFFFFFFF
# OOOO.......... the *** chars will be empty because Bottom Fire OOOOFFFFFFFFFF
# OOOO.......... can't go down basically, OOOOFFFFFFFFFF
# .OOOOOO***OOO. and it fills the area with F sign FOOOOOOFFFOOOF
# .OOOOOOOOOOOO. and can't fill *** with F so in this situation FOOOOOOOOOOOOF
# ..OOOOOOOOOOO. when starts a fire, it can spread FFOOOOOOOOOOOF
# ....OOOOOOOO.. into any direction FFFFOOOOOOOOFF
CharFire = "F" # Directions: not all, because if there is only 1 pixel wide frame around
Directions = ["Left", "Right", "Up",
"Down"] # the closed area, the fire can enter into it
area.fire_from_side(AreaFired,
"Top", [Fg],
Directions=Directions,
CharFire=CharFire)
area.fire_from_side(AreaFired,
"Bottom", [Fg],
Directions=Directions,
CharFire=CharFire)
area.fire_from_side(AreaFired,
"Left", [Fg],
Directions=Directions,
CharFire=CharFire)
area.fire_from_side(AreaFired,
"Right", [Fg],
Directions=Directions,
CharFire=CharFire)
AreaFiredInConvex = area.mask_with_convex_shape(
AreaFired, mark_util.mark_area_convex(Prg, Mark), Fg, Bg)
AreaStr = area.to_string(AreaFiredInConvex)
mark_info_insert(Prg, MarkStats, MarkId,
[("mark_area_open_in_convex", "\n" + AreaStr)])
NumOfClosedEmptyPixels = area.pattern_count(AreaFired, [Bg])
MarkNumOfPixels = len(Mark.keys())
MarkAreaClosedEmptyRatio = NumOfClosedEmptyPixels[Bg] / MarkNumOfPixels
mark_info_insert(
Prg, MarkStats, MarkId,
[("mark_area_closed_empty_ratio", str(MarkAreaClosedEmptyRatio))])
# TODO: num of closed area (above some %)
# TODO: ratio of open area
BlockVolume, BlockSizes = area.count_separated_blocks(
AreaFired, Bg, [Fg, CharFire])
mark_info_insert(Prg, MarkStats, MarkId,
[("separated_blocks_volume", str(BlockVolume))])
mark_info_insert(Prg, MarkStats, MarkId,
[("separated_blocks_sizes", str(BlockSizes))])
def test_mark_area_convex(self):
Mark = {
"Coords": {
(1, 1): 1,
(2, 2): 2,
(3, 3): 3,
(1, 3): 4
},
"Width": 3,
"Height": 3,
"Xmin": 1,
"Ymin": 1,
"Xmax": 3,
"Ymax": 3
}
AreaConvexGenerated = mark_util.mark_area_convex(Prg, Mark)
AreaWanted = ("O..\n" "OO.\n" "OOO")
self.assertEqual(AreaWanted, area.to_string(AreaConvexGenerated))
####################################
Mark = {
"Coords": {
(1, 1): 11,
(2, 1): 21,
(3, 1): 31,
(1, 2): 12,
(1, 3): 13,
(1, 4): 14,
(1, 5): 15,
(2, 5): 25,
(3, 5): 35,
(4, 5): 45,
(5, 5): 55
},
"Width": 5,
"Height": 5,
"Xmin": 1,
"Ymin": 1,
"Xmax": 5,
"Ymax": 5
}
AreaConvexGenerated = mark_util.mark_area_convex(Prg, Mark)
AreaWanted = ("OOO..\n" "OOOO.\n" "OOOO.\n" "OOOO.\n" "OOOOO")
self.assertEqual(AreaWanted, area.to_string(AreaConvexGenerated))
################## + sign convex area test ###################
Mark = {
"Coords": {
(3, 2): 32,
(3, 3): 33,
(3, 4): 34,
(0, 5): 5,
(1, 5): 15,
(2, 5): 25,
(3, 5): 35,
(4, 5): 45,
(5, 5): 55,
(6, 5): 65,
(3, 6): 36,
(3, 7): 37,
(3, 8): 38
},
"Width": 7,
"Height": 7,
"Xmin": 0,
"Ymin": 2,
"Xmax": 6,
"Ymax": 8
}
AreaConvexGenerated = mark_util.mark_area_convex(Prg, Mark)
AreaWanted = ("...O...\n"
"..OOO..\n"
".OOOOO.\n"
"OOOOOOO\n"
".OOOOO.\n"
"..OOO..\n"
"...O...")
self.assertEqual(AreaWanted, area.to_string(AreaConvexGenerated))
def mark_to_string(Mark):
return area.to_string(mark_to_area(Mark))
