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main-2.py
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347 lines (296 loc) · 10.8 KB
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# This is a sample Python script.
# Press ⌃R to execute it or replace it with your code.
# Press Double ⇧ to search everywhere for classes, files, tool windows, actions, and settings.
# import image module from pillow
from PIL import Image
# make a copy the image so that
# the original image does not get affected
myPath='/Volumes/Samsung_T5/LAVORO-FRANK/2023-BYS/CATALOGO/'
myPathImg='/Users/francescopeluso/Documents/FRANK/LAVORO/2023-BYS/CATALOGO/IMMAGINI/'
myPathPage='/Users/francescopeluso/Documents/FRANK/LAVORO/2023-BYS/CATALOGO/PAGINE/'
myPathData='/Users/francescopeluso/Documents/FRANK/LAVORO/2023-BYS/CATALOGO/DATAFILE/'
myPathBase='/Users/francescopeluso/Documents/FRANK/LAVORO/2023-BYS/CATALOGO/BASE/'
X=0 #contatore del numero di record nel datafile
n = 100
Vett1 = [0] * n
Vett2 = [0] * n
with open(myPathData+"gioielli_ESPORTAZIONE_eCOMM_CAT.csv") as file:
for item in file:
#print(item)
s1 = (item.find(";"))
s2 = (item.find(";", s1 + 1))
s3 = (item.find(";", s2 + 1))
s4 = (item.find(";", s3 + 1))
s5 = (item.find(";", s4 + 1))
#print (s1,s2, s3, s4, s5)
X=X+1
Vett1[X]=(item[s3+1:s4])
Vett2[X]=(item[s5+1:s5+5])
#rint(Vett1[X], Vett2[X])
file.close()
print(X)
# open the base image
#A4 300 dpi
A4X=2480
A4Y=3508
CellaX=770
CellaY=700
MargL=50 #margine left
MargS=200 #Margine superiore
StepTestoY=100
StepTestoX=150
#base map
Image0 = Image.open(myPathBase+'base-vegas.jpg')
resized_image0= Image0.resize((A4X, A4Y))
Image0copy = resized_image0
# open image and crea pages
mStep=0
for mCod in range(1, 9):
print("mCOD", mCod)
print("mStep",mStep)
print("X=",X)
#1
mStep += 1
print("mStep2", mStep)
if mStep <= X:
if Vett1[mStep] =='*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image1 = Image.open(mIMG)
resized_image1 = Image1.resize((CellaX, CellaY))
Image1copy = resized_image1
else:
mIMG=(myPathImg+Vett1[mStep])
Image1 = Image.open(mIMG)
resized_image1= Image1.resize((CellaX, CellaY))
Image1copy = resized_image1
else:
mIMG=(myPathImg+'ImageBlank.jpg')
Image1 = Image.open(mIMG)
resized_image1 = Image1.resize((CellaX, CellaY))
Image1copy = resized_image1
#2
mStep += 1
print("mStep3", mStep)
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image2 = Image.open(mIMG)
resized_image2 = Image2.resize((CellaX, CellaY))
Image2copy = resized_image2
else:
mIMG = (myPathImg + Vett1[mStep])
Image2 = Image.open(mIMG)
resized_image2 = Image2.resize((CellaX, CellaY))
Image2copy = resized_image2
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image2 = Image.open(mIMG)
resized_image2 = Image2.resize((CellaX, CellaY))
Image2copy = resized_image2
#3
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image3 = Image.open(mIMG)
resized_image3 = Image3.resize((CellaX, CellaY))
Image3copy = resized_image3
else:
mIMG = (myPathImg + Vett1[mStep])
Image3 = Image.open(mIMG)
resized_image3 = Image3.resize((CellaX, CellaY))
Image3copy = resized_image3
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image3 = Image.open(mIMG)
resized_image3 = Image3.resize((CellaX, CellaY))
Image3copy = resized_image3
#4
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image4 = Image.open(mIMG)
resized_image4 = Image4.resize((CellaX, CellaY))
Image4copy = resized_image4
else:
mIMG = (myPathImg + Vett1[mStep])
Image4 = Image.open(mIMG)
resized_image4 = Image4.resize((CellaX, CellaY))
Image4copy = resized_image4
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image4 = Image.open(mIMG)
resized_image4 = Image4.resize((CellaX, CellaY))
Image4copy = resized_image4
#5
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image5 = Image.open(mIMG)
resized_image5 = Image5.resize((CellaX, CellaY))
Image5copy = resized_image5
else:
mIMG = (myPathImg + Vett1[mStep])
Image5 = Image.open(mIMG)
resized_image5 = Image5.resize((CellaX, CellaY))
Image5copy = resized_image5
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image5 = Image.open(mIMG)
resized_image5 = Image5.resize((CellaX, CellaY))
Image5copy = resized_image5
#6
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image6 = Image.open(mIMG)
resized_image6 = Image6.resize((CellaX, CellaY))
Image6copy = resized_image6
else:
mIMG = (myPathImg + Vett1[mStep])
Image6 = Image.open(mIMG)
resized_image6 = Image6.resize((CellaX, CellaY))
Image6copy = resized_image6
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image6 = Image.open(mIMG)
resized_image6 = Image6.resize((CellaX, CellaY))
Image6copy = resized_image6
#7
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image7 = Image.open(mIMG)
resized_image7 = Image7.resize((CellaX, CellaY))
Image7copy = resized_image7
else:
mIMG = (myPathImg + Vett1[mStep])
Image7 = Image.open(mIMG)
resized_image7 = Image7.resize((CellaX, CellaY))
Image7copy = resized_image7
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image7 = Image.open(mIMG)
resized_image7 = Image7.resize((CellaX, CellaY))
Image7copy = resized_image7
#8
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image8 = Image.open(mIMG)
resized_image8 = Image8.resize((CellaX, CellaY))
Image8copy = resized_image8
else:
mIMG = (myPathImg + Vett1[mStep])
Image8 = Image.open(mIMG)
resized_image8 = Image8.resize((CellaX, CellaY))
Image8copy = resized_image8
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image8 = Image.open(mIMG)
resized_image8 = Image8.resize((CellaX, CellaY))
Image8copy = resized_image8
#9
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image9 = Image.open(mIMG)
resized_image9 = Image9.resize((CellaX, CellaY))
Image9copy = resized_image9
else:
mIMG = (myPathImg + Vett1[mStep])
Image9 = Image.open(mIMG)
resized_image9 = Image9.resize((CellaX, CellaY))
Image9copy = resized_image9
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image9 = Image.open(mIMG)
resized_image9 = Image9.resize((CellaX, CellaY))
Image9copy = resized_image9
#10
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image10 = Image.open(mIMG)
resized_image10 = Image10.resize((CellaX, CellaY))
Image10copy = resized_image10
else:
mIMG = (myPathImg + Vett1[mStep])
Image10 = Image.open(mIMG)
resized_image10 = Image10.resize((CellaX, CellaY))
Image10copy = resized_image10
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image10 = Image.open(mIMG)
resized_image10 = Image10.resize((CellaX, CellaY))
Image10copy = resized_image10
#11
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image11 = Image.open(mIMG)
resized_image11 = Image11.resize((CellaX, CellaY))
Image11copy = resized_image11
else:
mIMG = (myPathImg + Vett1[mStep])
Image11 = Image.open(mIMG)
resized_image11 = Image11.resize((CellaX, CellaY))
Image11copy = resized_image11
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image11 = Image.open(mIMG)
resized_image11 = Image11.resize((CellaX, CellaY))
Image11copy = resized_image11
#12
mStep += 1
if mStep <= X:
if Vett1[mStep] == '*':
mIMG = (myPathImg + 'ImageBlank.jpg')
Image12 = Image.open(mIMG)
resized_image12 = Image12.resize((CellaX, CellaY))
Image12copy = resized_image12
else:
mIMG = (myPathImg + Vett1[mStep])
Image12 = Image.open(mIMG)
resized_image12 = Image12.resize((CellaX, CellaY))
Image12copy = resized_image12
else:
mIMG = (myPathImg + 'ImageBlank.jpg')
Image12 = Image.open(mIMG)
resized_image12 = Image12.resize((CellaX, CellaY))
Image12copy = resized_image12
# paste image giving dimensions (X and y)
Image0copy.paste(Image1copy, (MargL, MargS))
Image0copy.paste(Image2copy, ((CellaX*1), MargS))
Image0copy.paste(Image3copy, ((CellaX*2), MargS))
#print((CellaX*2))
Image0copy.paste(Image4copy, (MargL, MargS+StepTestoY+CellaY))
Image0copy.paste(Image5copy, ((CellaX*1), MargS+StepTestoY+CellaY))
Image0copy.paste(Image6copy, ((CellaX*2), MargS+StepTestoY+CellaY))
Image0copy.paste(Image7copy, (MargL, MargS+(StepTestoY*2)+CellaY*2))
Image0copy.paste(Image8copy, ((CellaX*1), MargS+(StepTestoY*2)+CellaY*2))
Image0copy.paste(Image9copy, ((CellaX*2), MargS+(StepTestoY*2)+CellaY*2))
Image0copy.paste(Image10copy, (MargL, MargS+(StepTestoY*3)+CellaY*3))
Image0copy.paste(Image11copy, ((CellaX*1), MargS+(StepTestoY*3)+CellaY*3))
Image0copy.paste(Image12copy, ((CellaX*2), MargS+(StepTestoY*3)+CellaY*3))
# save the image
Image0copy.save(myPathPage+'vegas'+str(mCod)+'.jpg')
#write text items
img = Image.open(myPathPage+"vegas1.jpg")
# Importing Image and ImageFont, ImageDraw module from PIL package
from PIL import ImageFont, ImageDraw
# creating a image object
image = Image.open(myPathPage+"vegas1.jpg")
draw = ImageDraw.Draw(image)
font = ImageFont.truetype(myPath+'Arial Unicode.ttf', 30)
text = 'ART. 1234455'
draw.text((StepTestoX, CellaY+MargS), text, font=font, fill=(25,0,0,255) )
#image.show()