【教学类-58-14】黑白三角拼图12——单页1页图。参考图1页6张(黑白、彩色)、板式(无圆点、黑圆点、白圆点)、宫格2-10、张数6张,适合集体操作)
背景需求:
基于以下两个代码,设计一个单页1页黑白三角、彩色三角(包含黑点、白点、无点)的代码。
【教学类-58-12】黑白三角拼图10(N张参考图+1张操作卡+多张彩色白块,适合个别化)-CSDN博客文章浏览阅读888次,点赞27次,收藏7次。【教学类-58-12】黑白三角拼图10(N张参考图+1张操作卡+多张彩色白块,适合个别化)https://blog.csdn.net/reasonsummer/article/details/146476754?spm=1011.2415.3001.5331【教学类-58-13】黑白三角拼图11——左右结构图、一页三张,颜色(黑白、彩色)、板式(无圆点、黑圆点、白圆点)、宫格起止数、张数,适合集体操作)-CSDN博客文章浏览阅读517次,点赞11次,收藏10次。【教学类-58-13】黑白三角拼图11——左右结构图、一页三张,颜色(黑白、彩色)、板式(无圆点、黑圆点、白圆点)、宫格起止数、张数,适合集体操作)
https://blog.csdn.net/reasonsummer/article/details/146500374?spm=1011.2415.3001.5331
单页1页的黑白三角(包含黑点、白点、无点)
'''
彩色三角图,2宫格36张,3宫格36张……适合个别化 大操作卡
01彩色三角 1页1图大操作图 彩色块 无空心点
1、选择颜色:彩色
2、黑点、白点、无点
3、随机图片
AI对话大师,阿夏
2025年3月26日
'''
import os,time
from PIL import Image, ImageDraw
from docx import Document
from docx.shared import Cm
from docx.shared import Pt
import shutil
import os
from PyPDF2 import PdfFileMerger
path = r'C:\Users\jg2yXRZ\OneDrive\桌面\20250323黑白三角图案版(彩色)'
# 起始宫格数
start=int(input('开始宫格数,如2\n'))
# 最大宫格数
end=int(input('截止宫格数,如10\n'))
# 黑白或彩色
style=['0无圆点','1黑圆点','2白圆点']
s=int(input('请选择:0:无圆点,1:黑圆点,2:白圆点\n'))
# 1张(3张)=1,2
zhang=int(input('每种宫格生成多少张(一张有3份左右对称的?)比如:6张\n'))
colors=['black','black']
# 选择颜色:0黑白、1彩色
for gongge in range(start,end+1): # 遍历3宫格到10宫格
for ys in range(zhang,zhang+1):
new = path + fr'\{gongge:02}宫格组合图片'
os.makedirs(new, exist_ok=True)
newall=path+r'\02单页拼图'
os.makedirs(newall,exist_ok=True)
radius = 5
f = 6 * ys # 一页6张
b = 400 # 画布大小
by = 10 # 边距
print('----------1\制作白色操作图------------')
for g in range(gongge,gongge+1):
for c in range(1, f + 1):
# 创建bxb的画布
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# # 保存画布
# mb = f'{g:05d}格{c:05d}02模板{c:05d}.png'
# canvas.save(new + fr'\{mb}')
# 保存画布
mb = f'{g:05d}格模板.png'
canvas.save(new + fr'\{mb}')
print('---2、制作黑白参考图,计算三个坐标点的黑色三角形不重复图案有几个-------')
# 创建一个空列表用于存储单元格的坐标
cell_coordinates = []
# 计算每个单元格的四个顶点坐标
for row in range(rows):
for col in range(cols):
top_left = (margin + col * cell_width, margin + row * cell_height)
top_right = (margin + (col + 1) * cell_width, margin + row * cell_height)
bottom_left = (margin + col * cell_width, margin + (row + 1) * cell_height)
bottom_right = (margin + (col + 1) * cell_width, margin + (row + 1) * cell_height)
# 将四个顶点坐标添加到列表中
cell_coordinates.append([top_left, top_right, bottom_left, bottom_right])
# print(cell_coordinates)
# print(len(cell_coordinates))
# 16
# [[(0, 0), (400, 0), (0, 400), (400, 400)], [(400, 0), (b, 0), (400, 400), (b, 400)], [(0, 400), (400, 400), (0, b), (400, b)], [(400, 400), (b, 400), (400, b), (b, b)]]
import random
import os
combinations=[]
# 存储选取的点,随机生成坐标(样式)排除重复,生成10份样式不同的模版
while len(combinations) < f:
selected_points = []
for points in cell_coordinates:
selected_points.append(tuple(random.sample(points, 3)))
combinations.append(tuple(selected_points))
print(combinations)
print(len(combinations))
# 10
print('---3、制作三个坐标点的黑色三角形(4个)-------')
from PIL import Image, ImageDraw
# 定义要绘制的坐标点组合
for point_combination in combinations:
print(point_combination)
# 清空selected_points列表
selected_points = []
h=1
# 遍历每个坐标点组合
for combination in point_combination:
# 从每个列表中随机选取三个点,并加入到selected_points中
selected_points.append(tuple(random.sample(combination, 3)))
# 读取图像文件
# 创建bxb的画布
canvas = Image.new('RGB', (b,b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# # color=['black','black']
# color=['red','yellow','orange','blue','green','purple','pink']
color=colors
# 遍历每个坐标点组合
for combination in selected_points:
# 绘制填充为黑色的多边形
# draw.polygon(combination, fill='black',outline=(255, 255, 255), width=1)
draw.polygon(combination, fill=random.choice(color), outline=('black'), width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
# 保存结果图像
canvas.save(new + fr'\{g:05d}格{c:05d}01图纸{c:05d}.png')
canvas.close() # 关闭图像文件
print('----4、贴图用黑色色块----------')
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 绘制表格的竖直线和水平线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill='black', width=2)
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill='black', width=2)
# 在每个单元格中绘制两个三角形
for row in range(rows):
for col in range(cols):
left = margin + col * cell_width
upper = margin + row * cell_height
right = left + cell_width
lower = upper + cell_height
# 随机选择三个顶点坐标
points = [(left, upper), (right, upper), (left, lower), (right, lower)]
# random.shuffle(points)
triangle1 = tuple(points[0:3])
triangle2 = tuple(points[1:4])
draw.polygon(triangle1, fill='black',outline='black',width=2)
draw.polygon(triangle2, fill='white',outline='white',width=2)
# 设置边框线为黑色
draw.line([(margin, margin), (b - margin, margin), (b - margin, b - margin), (margin, b - margin), (margin, margin)], fill='black', width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存结果图像
canvas.save(new + fr'\{g:05d}格黑块.png')
canvas.close()
print('---4合并打印------')
# 第3步,读取图片写入docx,合并PDF
import os,time
from docx import Document
from reportlab.lib.pagesizes import letter
from reportlab.pdfgen import canvas
from PyPDF2 import PdfMerger
from docx.shared import Cm
print('---5参考图合并-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
new1=path+r'\保存1'
os.makedirs(new1, exist_ok=True)
# 每8个图片一组进行处理
grouped_files = [image_files[:-2][i:i+6] for i in range(0, len(image_files[:-2]), 6)]
print(grouped_files)
# 处理每一组图片
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\模板6格.docx')
print(group)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
cell = table.cell(int(cell_index / 2), cell_index % 2)
# 6列两个都是6
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(9.4), height=Cm(9.4))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
# 所有docx合并成PDF
# 将10个docx转为PDF
import os
from docx2pdf import convert
from PyPDF2 import PdfFileMerger
# from PyPDF4 import PdfMerger
# output_folder = output_folder
pdf_output_path = new1+fr'\02黑白三角{g:02d}宫格参考图.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
import shutil
# 删除输出文件夹
import time
shutil.rmtree(new_folder)
# shutil.rmtree(new)
time.sleep(2)
print('---6答题卡合并(白图和黑三角卡片-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
# 每8个图片一组进行处理
grouped_files = [image_files[-2:][i:i+2] for i in range(0, len(image_files[-2:]), 2)]
print(grouped_files)
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\底图1格.docx')
print(group)
t=[f'黑白三角({gongge}宫格)操作卡',f'黑白三角({gongge}宫格)贴图卡']
# 在单元格0,0写入“黑白三角(3宫格)操作卡”,24磅宋体
for tt in range(len(t)):
table = doc.tables[tt] # 两张表格
cell = table.cell(0, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run(t[tt])
run.font.name = '宋体'
run.font.size = Pt(40)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
if cell_index == 0:
cell = table.cell(1, 0)
table = doc.tables[1]
if cell_index == 1:
cell = table.cell(1, 0)
# else:
# continue
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(19.6), height=Cm(19.6))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
# output_folder = output_folder
pdf_output_path = new1+fr'\01黑白三角{g:02d}宫格黑块底图.pdf'
# pdf_output_path = path+fr'\黑白三角1-10宫格随机每款{f*ys}图共{ys}张一黑一白黑点白边黑白.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(1)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(new_folder)
shutil.rmtree(new)
time.sleep(5)
# print('---7合并答题卡和黑白三角卡片-----')
t_folder = path+r'\pdf'
os.makedirs(t_folder, exist_ok=True)
pdf_output_path2 = t_folder + fr'\01黑白三角{g:02d}宫格{f}张合并.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new1):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new1, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path2)
merger.close()
# 删除输出文件夹
shutil.rmtree(new1)
# shutil.rmtree(new)
# time.sleep(2)
print('------3-10宫格全部打包-------')
# pdf_output_path = path + fr'\01黑白三角全黑块({start}-{end})宫格{zhang*(end-start+1)}张参考图1套操作板.pdf'
# output_folder = output_folder
if s==0:
pdf_output_path = newall+fr'\01-01(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 无小圆点.pdf'
elif s==1:
pdf_output_path = newall+fr'\01-02(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 黑色小圆点.pdf'
elif s==2:
pdf_output_path = newall+fr'\01-03(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 白色小圆点.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(t_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(t_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(t_folder)
# shutil.rmtree(new)
单页1页的彩色三角(包含黑圆点、白点、无点、贴图卡片有7色)
'''
彩色三角图,2宫格36张,3宫格36张……适合个别化 大操作卡
01彩色三角 1页1图大操作图 彩色块 无空心点
1、选择颜色:彩色
2、黑点、白点、无点
3、随机图片
AI对话大师,阿夏
2025年3月26日
'''
import os,time
from PIL import Image, ImageDraw
from docx import Document
from docx.shared import Cm
from docx.shared import Pt
import shutil
import os
from PyPDF2 import PdfFileMerger
# 起始宫格数
start=int(input('开始宫格数,如2\n'))
# 最大宫格数
end=int(input('截止宫格数,如10\n'))
# 黑白或彩色
path = r'C:\Users\jg2yXRZ\OneDrive\桌面\20250323黑白三角图案版(彩色)'
style=['0无圆点','1黑圆点','2白圆点']
s=int(input('请选择:0:无圆点,1:黑圆点,2:白圆点\n'))
# 1张(3张)=1,2
zhang=int(input('每种宫格生成多少张(一张有3份左右对称的?)比如:6张\n'))
colors=['red','yellow','orange','blue','green','purple','pink']
# 选择颜色:0黑白、1彩色
# 选择颜色:0彩色、1彩色
for gongge in range(start,end+1): # 遍历3宫格到10宫格
for ys in range(zhang,zhang+1):
new = path + fr'\{gongge:02}宫格组合图片'
os.makedirs(new, exist_ok=True)
newall=path+r'\02单页拼图'
os.makedirs(newall,exist_ok=True)
radius = 5
f = 6 * ys # 一页6张
b = 400 # 画布大小
by = 10 # 边距
print('----------1\制作白色操作图------------')
for g in range(gongge,gongge+1):
for c in range(1, f + 1):
# 创建bxb的画布
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存画布
mb = f'{g:05d}格模板.png'
canvas.save(new + fr'\{mb}')
print('---2、制作彩色参考图,计算三个坐标点的黑色三角形不重复图案有几个-------')
# 创建一个空列表用于存储单元格的坐标
cell_coordinates = []
# 计算每个单元格的四个顶点坐标
for row in range(rows):
for col in range(cols):
top_left = (margin + col * cell_width, margin + row * cell_height)
top_right = (margin + (col + 1) * cell_width, margin + row * cell_height)
bottom_left = (margin + col * cell_width, margin + (row + 1) * cell_height)
bottom_right = (margin + (col + 1) * cell_width, margin + (row + 1) * cell_height)
# 将四个顶点坐标添加到列表中
cell_coordinates.append([top_left, top_right, bottom_left, bottom_right])
# print(cell_coordinates)
# print(len(cell_coordinates))
# 16
# [[(0, 0), (400, 0), (0, 400), (400, 400)], [(400, 0), (b, 0), (400, 400), (b, 400)], [(0, 400), (400, 400), (0, b), (400, b)], [(400, 400), (b, 400), (400, b), (b, b)]]
import random
import os
combinations=[]
# 存储选取的点,随机生成坐标(样式)排除重复,生成10份样式不同的模版
while len(combinations) < f:
selected_points = []
for points in cell_coordinates:
selected_points.append(tuple(random.sample(points, 3)))
combinations.append(tuple(selected_points))
print(combinations)
print(len(combinations))
# 10
print('---3、制作三个坐标点的黑色三角形(4个)-------')
from PIL import Image, ImageDraw
# 定义要绘制的坐标点组合
for point_combination in combinations:
print(point_combination)
# 清空selected_points列表
selected_points = []
h=1
# 遍历每个坐标点组合
for combination in point_combination:
# 从每个列表中随机选取三个点,并加入到selected_points中
selected_points.append(tuple(random.sample(combination, 3)))
# 读取图像文件
# 创建bxb的画布
canvas = Image.new('RGB', (b,b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# # color=['black','black']
# color=['red','yellow','orange','blue','green','purple','pink']
color=colors
# 遍历每个坐标点组合
for combination in selected_points:
# 绘制填充为黑色的多边形
# draw.polygon(combination, fill='black',outline=(255, 255, 255), width=1)
draw.polygon(combination, fill=random.choice(color), outline=(0, 0, 0), width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
# 保存结果图像
canvas.save(new + fr'\{g:05d}格{c:05d}01图纸{c:05d}.png')
canvas.close() # 关闭图像文件
print('----4、贴图用黑色色块----------')
for yy in colors:
print(yy)
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 绘制表格的竖直线和水平线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill='black', width=2)
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill='black', width=2)
# # 在每个单元格中绘制两个三角形
for row in range(rows):
for col in range(cols):
left = margin + col * cell_width
upper = margin + row * cell_height
right = left + cell_width
lower = upper + cell_height
# 随机选择三个顶点坐标
points = [(left, upper), (right, upper), (left, lower), (right, lower)]
# random.shuffle(points)
triangle1 = tuple(points[0:3])
triangle2 = tuple(points[1:4])
# # 绘制三角形
# # 全部黑填充,白色边框
# # draw.polygon(triangle1, fill='black',outline='white',width=2)
# # draw.polygon(triangle2, fill='black',outline='white',width=2)
# 全部黑色填充用黑色边框,白色填充用白色边框
draw.polygon(triangle1, fill=yy,outline='black',width=2)
draw.polygon(triangle2, fill='white',outline='black',width=2)
# 设置边框线为白色
draw.line([(margin, margin), (b - margin, margin), (b - margin, b - margin), (margin, b - margin), (margin, margin)], fill='white', width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存结果图像
canvas.save(new + fr'\{g:05d}格黑块{yy}.png')
canvas.close()
print('---4合并打印------')
# 第3步,读取图片写入docx,合并PDF
import os,time
from docx import Document
from reportlab.lib.pagesizes import letter
from reportlab.pdfgen import canvas
from PyPDF2 import PdfMerger
from docx.shared import Cm
print('---5参考图合并-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
new1=path+r'\保存1'
os.makedirs(new1, exist_ok=True)
# 每8个图片一组进行处理
# -8张
grouped_files = [image_files[:f][i:i+6] for i in range(0, len(image_files[:f]), 6)]
print(grouped_files)
# 处理每一组图片
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\模板6格.docx')
print(group)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
cell = table.cell(int(cell_index / 2), cell_index % 2)
# 6列两个都是6
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(9.4), height=Cm(9.4))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
# 所有docx合并成PDF
# 将10个docx转为PDF
import os
from docx2pdf import convert
from PyPDF2 import PdfFileMerger
# from PyPDF4 import PdfMerger
# output_folder = output_folder
pdf_output_path = new1+fr'\02彩色三角{g:02d}宫格参考图.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
import shutil
# 删除输出文件夹
import time
shutil.rmtree(new_folder)
# shutil.rmtree(new)
time.sleep(2)
print('---6答题卡合并(白图和黑三角卡片-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹1'
os.makedirs(new_folder, exist_ok=True)
# 只要文件名
image_name = [file for file in os.listdir(image_folder) if file.endswith('.png')]
# 只要最后几个
o = len(image_name)
o1=o-f
o2=-1
flattened_names= [image_name[f:][i:i+o1] for i in range(0, len(image_name[f:]), o1)]
print(flattened_names)
# 去掉一层嵌套
flattened_name = [item for sublist in flattened_names for item in sublist]
print(flattened_name)
t=[f'彩色三角({gongge}宫格)操作卡']
t2=[f'彩色三角({gongge}宫格)贴图卡']*(o1-1)
# 贴图卡后面添加颜色
for t3 in range(len(t2)):
t.append(t2[t3]+'('+flattened_name[t3+1][8:-4]+')')
print(t)
# 文件名+路径
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
flattened_lists= [image_files[f:][i:i+o1] for i in range(0, len(image_files[f:]), o1)]
print(flattened_lists)
# 多余的图
flattened_list = [item for sublist in flattened_lists for item in sublist]
print(flattened_list)
# # # ['彩色三角(2宫格)操作卡', '彩色三角(2宫格)贴图卡(red)', '彩色三角(2宫格)贴图卡(yellow)', '彩色三角(2宫格)贴图卡(orange)', '彩色三角(2宫格)贴图卡(blue)', '彩色三角
# # # (2宫格)贴图卡(green)', '彩色三角(2宫格)贴图卡(purple)', '彩色三角(2宫格)贴图卡(pink)']
for group_index in range(len(flattened_list)):
print(group_index) # 创建新的Word文档
# 0
doc = Document(path+r'\底图0格.docx')
# 在单元格0,0写入“彩色三角(3宫格)操作卡”,24磅宋体
# for tt in range(len(t)):
table = doc.tables[0] # 两张表格
cell = table.cell(0, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run(t[group_index])
run.font.name = '宋体'
run.font.size = Pt(40)
# 插入图片
# if cell_index == 0:
cell = table.cell(1, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
image_file1 = flattened_list[group_index]
# image_file1=str(flattened_lists[group_index])
print(image_file1)
run.add_picture(image_file1, width=Cm(19.6), height=Cm(19.6))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
pdf_output_path = new1+fr'\01彩色三角{g:02d}宫格黑块底图.pdf'
# pdf_output_path = path+fr'\彩色三角1-10宫格随机每款{f*ys}图共{ys}张一黑一白黑点白边彩色.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(3)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(new_folder)
time.sleep(2)
# print('---7合并答题卡和彩色三角卡片-----')
t_folder = path+r'\pdf'
os.makedirs(t_folder, exist_ok=True)
pdf_output_path2 = t_folder + fr'\01彩色三角{g:02d}宫格{f}张合并.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new1):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new1, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path2)
merger.close()
# 删除输出文件夹
shutil.rmtree(new1)
# shutil.rmtree(new)
# time.sleep(2)
print('------3-10宫格全部打包-------')
# pdf_output_path = path + fr'\01彩色三角全黑块({start}-{end})宫格{zhang*(end-start+1)}张参考图1套操作板.pdf'
if s==0:
pdf_output_path = newall+fr'\01-01(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 无小圆点.pdf'
elif s==1:
pdf_output_path = newall+fr'\01-02(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 黑色小圆点.pdf'
elif s==2:
pdf_output_path = newall+fr'\01-03(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 白色小圆点.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(t_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(t_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(t_folder)
但是生成过程中每次都出现病毒提示,必须点开设置允许,不去管它的话,30秒后就自动删除PDF文件了。
所以我想直接把三款一次性生成。做了一个遍历。
黑白三角 1页1图:操作卡和贴图卡
'''
彩色三角图,2宫格36张,3宫格36张……适合个别化 大操作卡
01彩色三角 1页1图大操作图 彩色块 无空心点
1、选择颜色:彩色
2、黑点、白点、无点
3、随机图片
AI对话大师,阿夏
2025年3月26日
'''
import os,time
from PIL import Image, ImageDraw
from docx import Document
from docx.shared import Cm
from docx.shared import Pt
import shutil
import os
from PyPDF2 import PdfFileMerger
path = r'C:\Users\jg2yXRZ\OneDrive\桌面\20250323黑白三角图案版(彩色)'
# 起始宫格数
start=int(input('开始宫格数,如2\n'))
# 最大宫格数
end=int(input('截止宫格数,如10\n'))
# 选择颜色:0黑白、1彩色
colors=['black','black']
# 黑白或彩色
zhang=int(input('每种宫格生成多少张(一张有3份左右对称的?)比如:6张\n'))
style=['0无圆点','1黑圆点','2白圆点']
# s=int(input('请选择:0:无圆点,1:黑圆点,2:白圆点\n'))
for s in [0,1,2]: # 三种样式都生成
# 1张(3张)=1,2
for gongge in range(start,end+1): # 遍历3宫格到10宫格
for ys in range(zhang,zhang+1):
new = path + fr'\{gongge:02}宫格组合图片'
os.makedirs(new, exist_ok=True)
newall=path+r'\02单页拼图'
os.makedirs(newall,exist_ok=True)
radius = 5
f = 6 * ys # 一页6张
b = 400 # 画布大小
by = 10 # 边距
print('----------1\制作白色操作图------------')
for g in range(gongge,gongge+1):
for c in range(1, f + 1):
# 创建bxb的画布
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存画布
mb = f'{g:05d}格模板.png'
canvas.save(new + fr'\{mb}')
print('---2、制作黑白参考图,计算三个坐标点的黑色三角形不重复图案有几个-------')
# 创建一个空列表用于存储单元格的坐标
cell_coordinates = []
# 计算每个单元格的四个顶点坐标
for row in range(rows):
for col in range(cols):
top_left = (margin + col * cell_width, margin + row * cell_height)
top_right = (margin + (col + 1) * cell_width, margin + row * cell_height)
bottom_left = (margin + col * cell_width, margin + (row + 1) * cell_height)
bottom_right = (margin + (col + 1) * cell_width, margin + (row + 1) * cell_height)
# 将四个顶点坐标添加到列表中
cell_coordinates.append([top_left, top_right, bottom_left, bottom_right])
# print(cell_coordinates)
# print(len(cell_coordinates))
# 16
# [[(0, 0), (400, 0), (0, 400), (400, 400)], [(400, 0), (b, 0), (400, 400), (b, 400)], [(0, 400), (400, 400), (0, b), (400, b)], [(400, 400), (b, 400), (400, b), (b, b)]]
import random
import os
combinations=[]
# 存储选取的点,随机生成坐标(样式)排除重复,生成10份样式不同的模版
while len(combinations) < f:
selected_points = []
for points in cell_coordinates:
selected_points.append(tuple(random.sample(points, 3)))
combinations.append(tuple(selected_points))
print(combinations)
print(len(combinations))
# 10
print('---3、制作三个坐标点的黑色三角形(4个)-------')
from PIL import Image, ImageDraw
# 定义要绘制的坐标点组合
for point_combination in combinations:
print(point_combination)
# 清空selected_points列表
selected_points = []
h=1
# 遍历每个坐标点组合
for combination in point_combination:
# 从每个列表中随机选取三个点,并加入到selected_points中
selected_points.append(tuple(random.sample(combination, 3)))
# 读取图像文件
# 创建bxb的画布
canvas = Image.new('RGB', (b,b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# # color=['black','black']
# color=['red','yellow','orange','blue','green','purple','pink']
color=colors
# 遍历每个坐标点组合
for combination in selected_points:
# 绘制填充为黑色的多边形
# draw.polygon(combination, fill='black',outline=(255, 255, 255), width=1)
draw.polygon(combination, fill=random.choice(color), outline=('black'), width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
# 保存结果图像
canvas.save(new + fr'\{g:05d}格{c:05d}01图纸{c:05d}.png')
canvas.close() # 关闭图像文件
print('----4、贴图用黑色色块----------')
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 绘制表格的竖直线和水平线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill='black', width=2)
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill='black', width=2)
# 在每个单元格中绘制两个三角形
for row in range(rows):
for col in range(cols):
left = margin + col * cell_width
upper = margin + row * cell_height
right = left + cell_width
lower = upper + cell_height
# 随机选择三个顶点坐标
points = [(left, upper), (right, upper), (left, lower), (right, lower)]
# random.shuffle(points)
triangle1 = tuple(points[0:3])
triangle2 = tuple(points[1:4])
draw.polygon(triangle1, fill='black',outline='black',width=2)
# draw.polygon(triangle2, fill='white',outline='white',width=1)
# 设置边框线为黑色
# draw.line([(margin, margin), (b - margin, margin), (b - margin, b - margin), (margin, b - margin), (margin, margin)], fill='black', width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存结果图像
canvas.save(new + fr'\{g:05d}格黑块.png')
canvas.close()
print('---4合并打印------')
# 第3步,读取图片写入docx,合并PDF
import os,time
from docx import Document
from reportlab.lib.pagesizes import letter
from reportlab.pdfgen import canvas
from PyPDF2 import PdfMerger
from docx.shared import Cm
print('---5参考图合并-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
new1=path+r'\保存1'
os.makedirs(new1, exist_ok=True)
# 每8个图片一组进行处理
grouped_files = [image_files[:-2][i:i+6] for i in range(0, len(image_files[:-2]), 6)]
print(grouped_files)
# 处理每一组图片
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\模板6格.docx')
print(group)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
cell = table.cell(int(cell_index / 2), cell_index % 2)
# 6列两个都是6
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(9.4), height=Cm(9.4))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
# 将10个docx转为PDF
import os
from docx2pdf import convert
from PyPDF2 import PdfFileMerger
# from PyPDF4 import PdfMerger
# output_folder = output_folder
pdf_output_path = new1+fr'\02黑白三角{g:02d}宫格参考图.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
import shutil
# 删除输出文件夹
import time
shutil.rmtree(new_folder)
# shutil.rmtree(new)
time.sleep(2)
print('---6答题卡合并(白图和黑三角卡片-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
# 每8个图片一组进行处理
grouped_files = [image_files[-2:][i:i+2] for i in range(0, len(image_files[-2:]), 2)]
print(grouped_files)
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\底图1格.docx')
print(group)
t=[f'黑白三角({gongge}宫格)操作卡',f'黑白三角({gongge}宫格)贴图卡']
# 在单元格0,0写入“黑白三角(3宫格)操作卡”,24磅宋体
for tt in range(len(t)):
table = doc.tables[tt] # 两张表格
cell = table.cell(0, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run(t[tt])
run.font.name = '宋体'
run.font.size = Pt(40)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
if cell_index == 0:
cell = table.cell(1, 0)
table = doc.tables[1]
if cell_index == 1:
cell = table.cell(1, 0)
# else:
# continue
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(19.6), height=Cm(19.6))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
pdf_output_path = new1+fr'\01黑白三角{g:02d}宫格黑块底图.pdf'
# pdf_output_path = path+fr'\黑白三角1-10宫格随机每款{f*ys}图共{ys}张一黑一白黑点白边黑白.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(1)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(new_folder)
shutil.rmtree(new)
time.sleep(5)
# print('---7合并答题卡和黑白三角卡片-----')
t_folder = path+r'\pdf'
os.makedirs(t_folder, exist_ok=True)
pdf_output_path2 = t_folder + fr'\01黑白三角{g:02d}宫格{f}张合并.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new1):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new1, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path2)
merger.close()
# 删除输出文件夹
shutil.rmtree(new1)
# shutil.rmtree(new)
# time.sleep(2)
print('------3-10宫格全部打包-------')
if s==0:
pdf_output_path = newall+fr'\01-01(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 无小圆点.pdf'
elif s==1:
pdf_output_path = newall+fr'\01-02(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 黑色小圆点.pdf'
elif s==2:
pdf_output_path = newall+fr'\01-03(单页1页)黑白三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 白色小圆点.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(t_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(t_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(t_folder)
白点
黑点
无点
彩色三角合并版 1页1图,白点、黑点、无点,三合一
'''
彩色三角图,2宫格36张,3宫格36张……适合个别化 大操作卡
01彩色三角 1页1图大操作图 彩色块 无空心点
1、选择颜色:彩色
2、黑点、白点、无点
3、随机图片
AI对话大师,阿夏
2025年3月26日
'''
import os,time
from PIL import Image, ImageDraw
from docx import Document
from docx.shared import Cm
from docx.shared import Pt
import shutil
import os
from PyPDF2 import PdfFileMerger
path = r'C:\Users\jg2yXRZ\OneDrive\桌面\20250323黑白三角图案版(彩色)'
# 起始宫格数
start=int(input('开始宫格数,如2\n'))
# 最大宫格数
end=int(input('截止宫格数,如10\n'))
# 黑白或彩色
# 黑白或彩色
zhang=int(input('每种宫格生成多少张(一张有3份左右对称的?)比如:6张\n'))
style=['0无圆点','1黑圆点','2白圆点']
# s=int(input('请选择:0:无圆点,1:黑圆点,2:白圆点\n'))
for s in [0,1,2]: # 三种样式都生成
#
colors=['red','yellow','orange','blue','green','purple','pink']
# 选择颜色:0黑白、1彩色
# 选择颜色:0彩色、1彩色
for gongge in range(start,end+1): # 遍历3宫格到10宫格
for ys in range(zhang,zhang+1):
new = path + fr'\{gongge:02}宫格组合图片'
os.makedirs(new, exist_ok=True)
newall=path+r'\02单页拼图'
os.makedirs(newall,exist_ok=True)
radius = 5
f = 6 * ys # 一页6张
b = 400 # 画布大小
by = 10 # 边距
print('----------1\制作白色操作图------------')
for g in range(gongge,gongge+1):
for c in range(1, f + 1):
# 创建bxb的画布
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存画布
mb = f'{g:05d}格模板.png'
canvas.save(new + fr'\{mb}')
print('---2、制作彩色参考图,计算三个坐标点的黑色三角形不重复图案有几个-------')
# 创建一个空列表用于存储单元格的坐标
cell_coordinates = []
# 计算每个单元格的四个顶点坐标
for row in range(rows):
for col in range(cols):
top_left = (margin + col * cell_width, margin + row * cell_height)
top_right = (margin + (col + 1) * cell_width, margin + row * cell_height)
bottom_left = (margin + col * cell_width, margin + (row + 1) * cell_height)
bottom_right = (margin + (col + 1) * cell_width, margin + (row + 1) * cell_height)
# 将四个顶点坐标添加到列表中
cell_coordinates.append([top_left, top_right, bottom_left, bottom_right])
# print(cell_coordinates)
# print(len(cell_coordinates))
# 16
# [[(0, 0), (400, 0), (0, 400), (400, 400)], [(400, 0), (b, 0), (400, 400), (b, 400)], [(0, 400), (400, 400), (0, b), (400, b)], [(400, 400), (b, 400), (400, b), (b, b)]]
import random
import os
combinations=[]
# 存储选取的点,随机生成坐标(样式)排除重复,生成10份样式不同的模版
while len(combinations) < f:
selected_points = []
for points in cell_coordinates:
selected_points.append(tuple(random.sample(points, 3)))
combinations.append(tuple(selected_points))
print(combinations)
print(len(combinations))
# 10
print('---3、制作三个坐标点的黑色三角形(4个)-------')
from PIL import Image, ImageDraw
# 定义要绘制的坐标点组合
for point_combination in combinations:
print(point_combination)
# 清空selected_points列表
selected_points = []
h=1
# 遍历每个坐标点组合
for combination in point_combination:
# 从每个列表中随机选取三个点,并加入到selected_points中
selected_points.append(tuple(random.sample(combination, 3)))
# 读取图像文件
# 创建bxb的画布
canvas = Image.new('RGB', (b,b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 定义表格的行数和列数、边距
rows = g
cols = g
margin = by
# 计算单元格的宽度和高度
cell_width = (b - 2 * margin) // cols
cell_height = (b - 2 * margin) // rows
# 绘制表格的竖直线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill=(0, 0, 0), width=2)
# 绘制表格的水平线
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill=(0, 0, 0), width=2)
# # color=['black','black']
# color=['red','yellow','orange','blue','green','purple','pink']
color=colors
# 遍历每个坐标点组合
for combination in selected_points:
# 绘制填充为黑色的多边形
# draw.polygon(combination, fill='black',outline=(255, 255, 255), width=1)
draw.polygon(combination, fill=random.choice(color), outline=(0, 0, 0), width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 绘制每个单元格的左上角、右上角、左下角、右下角的黑色圆形
# 保存结果图像
canvas.save(new + fr'\{g:05d}格{c:05d}01图纸{c:05d}.png')
canvas.close() # 关闭图像文件
print('----4、贴图用黑色色块----------')
for yy in colors:
print(yy)
canvas = Image.new('RGB', (b, b), (255, 255, 255))
draw = ImageDraw.Draw(canvas)
# 绘制表格的竖直线和水平线
for i in range(cols + 1):
x = margin + i * cell_width
draw.line([(x, margin), (x, b - margin)], fill='black', width=2)
# draw.line([(x, margin), (x, b - margin)], fill=yy, width=2)
for i in range(rows + 1):
y = margin + i * cell_height
draw.line([(margin, y), (b - margin, y)], fill='black', width=2)
# draw.line([(margin, y), (b - margin, y)], fill=yy, width=2)
# # 在每个单元格中绘制两个三角形
for row in range(rows):
for col in range(cols):
left = margin + col * cell_width
upper = margin + row * cell_height
right = left + cell_width
lower = upper + cell_height
# 随机选择三个顶点坐标
points = [(left, upper), (right, upper), (left, lower), (right, lower)]
# random.shuffle(points)
triangle1 = tuple(points[0:3])
triangle2 = tuple(points[1:4])
# 全部黑色填充用黑色边框,白色填充用白色边框
draw.polygon(triangle1, fill=yy,outline='black',width=2) # 彩色填充黑色边框(粗2)
# draw.polygon(triangle1, fill=yy,outline=yy,width=0) # 彩色填充黑彩色边框(细1)
# draw.polygon(triangle2, fill='white',outline='black',width=2)
# 设置边框线为黑色
# draw.line([(margin, margin), (b - margin, margin), (b - margin, b - margin), (margin, b - margin), (margin, margin)], fill='white', width=2)
for i in range(rows):
for j in range(cols):
left = margin + j * cell_width
upper = margin + i * cell_height
right = left + cell_width
lower = upper + cell_height
if s==0: # 无圆点,纯黑线
pass
elif s==1: # 绘制黑色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill=('black'), width=5)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill=('black'), width=5)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill=('black'), width=5)
else: # # 绘制白色小圆点
draw.ellipse([(left - radius, upper - radius), (left + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, upper - radius), (right + radius, upper + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(left - radius, lower - radius), (left + radius, lower + radius)],
fill='white', outline='black', width=1)
draw.ellipse([(right - radius, lower - radius), (right + radius, lower + radius)],
fill='white', outline='black', width=1)
# 保存结果图像
canvas.save(new + fr'\{g:05d}格黑块{yy}.png')
canvas.close()
print('---4合并打印------')
# 第3步,读取图片写入docx,合并PDF
import os,time
from docx import Document
from reportlab.lib.pagesizes import letter
from reportlab.pdfgen import canvas
from PyPDF2 import PdfMerger
from docx.shared import Cm
print('---5参考图合并-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹'
os.makedirs(new_folder, exist_ok=True)
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
new1=path+r'\保存1'
os.makedirs(new1, exist_ok=True)
# -8张
grouped_files = [image_files[:f][i:i+6] for i in range(0, len(image_files[:f]), 6)]
print(grouped_files)
# 处理每一组图片
for group_index, group in enumerate(grouped_files):
# 创建新的Word文档
doc = Document(path+r'\模板6格.docx')
print(group)
# 遍历每个单元格,并插入图片
for cell_index, image_file in enumerate(group):
# 计算图片长宽(单位:厘米)
# 插入图片到单元格
table = doc.tables[0]
cell = table.cell(int(cell_index / 2), cell_index % 2)
# 6列两个都是6
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
run.add_picture(image_file, width=Cm(9.4), height=Cm(9.4))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
# 将10个docx转为PDF
import os
from docx2pdf import convert
from PyPDF2 import PdfFileMerger
pdf_output_path = new1+fr'\02彩色三角{g:02d}宫格参考图.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
import shutil
# 删除输出文件夹
import time
shutil.rmtree(new_folder)
# shutil.rmtree(new)
time.sleep(2)
print('---6答题卡合并(白图和黑三角卡片-----')
# 读取123文件夹中的所有图片地址(参考图)
image_folder = new
new_folder = path+r'\零时文件夹1'
os.makedirs(new_folder, exist_ok=True)
# 只要文件名
image_name = [file for file in os.listdir(image_folder) if file.endswith('.png')]
# 只要最后几个
o = len(image_name)
o1=o-f
o2=-1
flattened_names= [image_name[f:][i:i+o1] for i in range(0, len(image_name[f:]), o1)]
print(flattened_names)
# 去掉一层嵌套
flattened_name = [item for sublist in flattened_names for item in sublist]
print(flattened_name)
t=[f'彩色三角({gongge}宫格)操作卡']
t2=[f'彩色三角({gongge}宫格)贴图卡']*(o1-1)
# 贴图卡后面添加颜色
for t3 in range(len(t2)):
t.append(t2[t3]+'('+flattened_name[t3+1][8:-4]+')')
print(t)
# 文件名+路径
image_files = [os.path.join(image_folder, file) for file in os.listdir(image_folder) if file.endswith('.png')]
flattened_lists= [image_files[f:][i:i+o1] for i in range(0, len(image_files[f:]), o1)]
print(flattened_lists)
# 多余的图
flattened_list = [item for sublist in flattened_lists for item in sublist]
print(flattened_list)
# # # ['彩色三角(2宫格)操作卡', '彩色三角(2宫格)贴图卡(red)', '彩色三角(2宫格)贴图卡(yellow)', '彩色三角(2宫格)贴图卡(orange)', '彩色三角(2宫格)贴图卡(blue)', '彩色三角
# # # (2宫格)贴图卡(green)', '彩色三角(2宫格)贴图卡(purple)', '彩色三角(2宫格)贴图卡(pink)']
for group_index in range(len(flattened_list)):
print(group_index) # 创建新的Word文档
# 0
doc = Document(path+r'\底图0格.docx')
# 在单元格0,0写入“彩色三角(3宫格)操作卡”,24磅宋体
# for tt in range(len(t)):
table = doc.tables[0] # 两张表格
cell = table.cell(0, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run(t[group_index])
run.font.name = '宋体'
run.font.size = Pt(40)
# 插入图片
# if cell_index == 0:
cell = table.cell(1, 0)
cell_paragraph = cell.paragraphs[0]
cell_paragraph.clear()
run = cell_paragraph.add_run()
image_file1 = flattened_list[group_index]
# image_file1=str(flattened_lists[group_index])
print(image_file1)
run.add_picture(image_file1, width=Cm(19.6), height=Cm(19.6))
# 保存Word文档
doc.save(os.path.join(new_folder, f'{group_index + 1:03d}.docx'))
pdf_output_path = new1+fr'\01彩色三角{g:02d}宫格黑块底图.pdf'
# pdf_output_path = path+fr'\彩色三角1-10宫格随机每款{f*ys}图共{ys}张一黑一白黑点白边彩色.pdf'
# 将所有DOCX文件转换为PDF
for docx_file in os.listdir(new_folder):
if docx_file.endswith('.docx'):
docx_path = os.path.join(new_folder, docx_file)
convert(docx_path, docx_path.replace('.docx', '.pdf'))
time.sleep(3)
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new_folder, pdf_file)
merger.append(pdf_path)
time.sleep(3)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(new_folder)
time.sleep(2)
# print('---7合并答题卡和彩色三角卡片-----')
t_folder = path+r'\pdf'
os.makedirs(t_folder, exist_ok=True)
pdf_output_path2 = t_folder + fr'\01彩色三角{g:02d}宫格{f}张合并.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(new1):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(new1, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path2)
merger.close()
# 删除输出文件夹
shutil.rmtree(new1)
print('------3-10宫格全部打包-------')
# pdf_output_path = path + fr'\01彩色三角全黑块({start}-{end})宫格{zhang*(end-start+1)}张参考图1套操作板.pdf'
if s==0:
pdf_output_path = newall+fr'\02-01(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 无小圆点.pdf'
elif s==1:
pdf_output_path = newall+fr'\02-02(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 黑色小圆点.pdf'
elif s==2:
pdf_output_path = newall+fr'\02-03(单页1页)彩色三角 {start}-{end}宫格 每款{f*ys}图共{ys}张 黑色边框 白色小圆点.pdf'
# 合并零时文件里所有PDF文件
merger = PdfFileMerger()
for pdf_file in os.listdir(t_folder):
if pdf_file.endswith('.pdf'):
pdf_path = os.path.join(t_folder, pdf_file)
merger.append(pdf_path)
time.sleep(2)
# 保存合并后的PDF文件
merger.write(pdf_output_path)
merger.close()
# 删除输出文件夹
shutil.rmtree(t_folder)
黑点
白点
无点
彩色快一共7种颜色的色块
好了,测试完毕,生成正式的2-10宫格黑白、彩色的三款样式,每个宫格6张(36图),彩色有7种贴图卡
因为合并了,所以只出现一次安全提示
生成了2个小时,才完成黑白的三角的三款
