🐛

2020-07-31 16:50:31 +02:00
parent b52fba6a6d
commit 6934fd7480
2 changed files with 4 additions and 4 deletions
--- a/funcs/games/fourInARowDraw.py
+++ b/funcs/games/fourInARowDraw.py
@ -0,0 +1,129 @@
+import json
+import math
+
+from PIL import Image, ImageDraw, ImageFont
+from funcs import logThis
+
+# Draws the whole thing
+def drawImage(channel):
+    logThis("Drawing four in a row board")
+    with open("resources/games/games.json", "r") as f:
+        data = json.load(f)
+
+    board = data["4 in a row games"][channel]["board"]
+
+    border = 40
+    gridBorder = 40
+    cornerSize = 100
+    outlineSize = 20
+    bottomBorder = 110
+    exampleCircles = 100
+    w, h = 2800,2000
+    backgroundColor = (128,128,128,255)
+    boardColor = (0,0,170)
+    placeSize = 285
+
+    fnt = ImageFont.truetype('resources/futura-bold.ttf', exampleCircles)
+
+    boardSize = [w-(2*(border+gridBorder)),h-(2*(border+gridBorder))]
+    placeGridSize = [math.floor(boardSize[0]/7),math.floor(boardSize[1]/6)]
+    pieceStartx = (border+gridBorder)+math.floor(placeGridSize[0]/2)-math.floor(placeSize/2)
+    pieceStarty = (border+gridBorder)+math.floor(placeGridSize[1]/2)-math.floor(placeSize/2)
+
+
+    background = Image.new("RGB", (w,h+bottomBorder),backgroundColor)
+    d = ImageDraw.Draw(background,"RGBA")
+
+    # This whole part was the easiest way to make a rectangle with rounded corners and an outline
+    # - Corners:
+    d.ellipse([(border,border),(border+cornerSize,border+cornerSize)],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    d.ellipse([(w-(border+cornerSize),h-(border+cornerSize)),(w-border,h-border)],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    d.ellipse([(border,h-(border+cornerSize)),(border+cornerSize,h-border)],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    d.ellipse([(w-(border+cornerSize),border),(w-border,border+cornerSize)],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    # - Rectangle:
+    d.rectangle([(border+math.floor(cornerSize/2),border),(w-(border+math.floor(cornerSize/2)),h-border)],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    d.rectangle([(border,border+math.floor(cornerSize/2)),(w-border,h-(border+math.floor(cornerSize/2)))],fill=boardColor,outline=(0,0,0),width=outlineSize)
+    # - Removing outline on the inside:
+    d.rectangle([(border+math.floor(cornerSize/2),border+math.floor(cornerSize/2)),(w-(border+math.floor(cornerSize/2)),h-(border+math.floor(cornerSize/2)))],fill=boardColor)
+    d.ellipse([(border+outlineSize,border+outlineSize),(border+cornerSize-outlineSize,border+cornerSize-outlineSize)],fill=boardColor)
+    d.ellipse([(w-(border+cornerSize)+outlineSize,h-(border+cornerSize)+outlineSize),(w-border-outlineSize,h-border-outlineSize)],fill=boardColor)
+    d.ellipse([(border+outlineSize,h-(border+cornerSize)+outlineSize),(border+cornerSize-outlineSize,h-border-outlineSize)],fill=boardColor)
+    d.ellipse([(w-(border+cornerSize)+outlineSize,border+outlineSize),(w-border-outlineSize,border+cornerSize-outlineSize)],fill=boardColor)
+
+    for line in range(len(board)):
+        for place in range(len(board[line])):
+            piece = board[line][place]
+
+            if piece == 1:
+                pieceColor = (255,255,0)
+            elif piece == 2:
+                pieceColor = (200,0,0)
+            else:
+                pieceColor = backgroundColor
+
+            startx = pieceStartx + placeGridSize[0]*place
+            starty = pieceStarty + placeGridSize[1]*line
+
+            d.ellipse([(startx,starty),(startx+placeSize,starty+placeSize)],fill=pieceColor,outline=(0,0,0),width=outlineSize)
+
+    if data["4 in a row games"][channel]["winner"] != 0:
+        coordinates = data["4 in a row games"][channel]["win coordinates"]
+        startx = border + placeGridSize[0]*coordinates[1] + gridBorder
+        starty = border + placeGridSize[1]*coordinates[0] + gridBorder
+        a = (placeGridSize[0]*4-gridBorder-border)**2
+        b = (placeGridSize[1]*4-gridBorder-border)**2
+        diagonalLength = (math.sqrt(a+b))/placeGridSize[0]
+        diagonalAngle = math.degrees(math.atan(placeGridSize[1]/placeGridSize[0]))
+
+        if data["4 in a row games"][channel]["win direction"] == "h":
+            winBar = Image.new("RGBA",(placeGridSize[0]*4,placeGridSize[1]),(0,0,0,0))
+            winD = ImageDraw.Draw(winBar)
+            winD.ellipse([(0,0),(placeGridSize[0],placeGridSize[1])],fill=(128,128,180,255))
+            winD.ellipse([((placeGridSize[0]*3),0),(placeGridSize[0]*4,placeGridSize[1])],fill=(128,128,180,255))
+            winD.rectangle([(int(placeGridSize[0]*0.5),0),(int(placeGridSize[0]*3.5),placeGridSize[1])],fill=(128,128,180,255))
+
+        elif data["4 in a row games"][channel]["win direction"] == "v":
+            winBar = Image.new("RGBA",(placeGridSize[0],placeGridSize[1]*4),(0,0,0,0))
+            winD = ImageDraw.Draw(winBar)
+            winD.ellipse([(0,0),(placeGridSize[0],placeGridSize[1])],fill=(128,128,180,255))
+            winD.ellipse([(0,(placeGridSize[1]*3)),(placeGridSize[0],placeGridSize[1]*4)],fill=(128,128,180,255))
+            winD.rectangle([0,(int(placeGridSize[1]*0.5)),(placeGridSize[0],int(placeGridSize[1]*3.5))],fill=(128,128,180,255))
+
+        elif data["4 in a row games"][channel]["win direction"] == "r":
+            winBar = Image.new("RGBA",(int(placeGridSize[0]*diagonalLength),placeGridSize[1]),(0,0,0,0))
+            winD = ImageDraw.Draw(winBar)
+            winD.ellipse([(0,0),(placeGridSize[0],placeGridSize[1])],fill=(128,128,180,255))
+            winD.ellipse([((placeGridSize[0]*(diagonalLength-1)),0),(placeGridSize[0]*diagonalLength,placeGridSize[1])],fill=(128,128,180,255))
+            winD.rectangle([(int(placeGridSize[0]*0.5),0),(int(placeGridSize[0]*(diagonalLength-0.5)),placeGridSize[1])],fill=(128,128,180,255))
+            winBar = winBar.rotate(-diagonalAngle,expand=1)
+            startx -= border
+            starty -= gridBorder + border
+
+        elif data["4 in a row games"][channel]["win direction"] == "l":
+            winBar = Image.new("RGBA",(int(placeGridSize[0]*diagonalLength),placeGridSize[1]),(0,0,0,0))
+            winD = ImageDraw.Draw(winBar)
+            winD.ellipse([(0,0),(placeGridSize[0],placeGridSize[1])],fill=(128,128,180,255))
+            winD.ellipse([((placeGridSize[0]*(diagonalLength-1)),0),(placeGridSize[0]*diagonalLength,placeGridSize[1])],fill=(128,128,180,255))
+            winD.rectangle([(int(placeGridSize[0]*0.5),0),(int(placeGridSize[0]*(diagonalLength-0.5)),placeGridSize[1])],fill=(128,128,180,255))
+            winBar = winBar.rotate(diagonalAngle,expand=1)
+            startx -= placeGridSize[0]*3 + border
+            starty -= gridBorder + border
+        
+        
+        mask = winBar.copy().convert("1")
+        winBar.putalpha(mask)
+        background.paste(winBar,(startx,starty),winBar)
+    
+    # Bottom
+    textPadding = 20
+
+    exampleHeight = h - border + int((bottomBorder+border)/2) - int(exampleCircles/2)
+    d.ellipse([(border,exampleHeight),(border+exampleCircles),(exampleHeight+exampleCircles)],fill=(255,255,0),outline=(0,0,0),width=3)
+    d.text((border+exampleCircles+textPadding,exampleHeight),data["4 in a row games"][channel]["players"][0],font=fnt,fill=(0,0,0))
+
+    textWidth = fnt.getsize(data["4 in a row games"][channel]["players"][1])[0]
+    d.ellipse([(w-border-exampleCircles-textWidth-textPadding,exampleHeight),(w-border-textWidth-textPadding),(exampleHeight+exampleCircles)],fill=(255,0,0),outline=(0,0,0),width=3)
+    d.text((w-border-textWidth,exampleHeight),data["4 in a row games"][channel]["players"][1],font=fnt,fill=(0,0,0))
+
+
+    background.save("resources/games/4InARowBoards/board"+channel+".png")