Use cm as unit for all input values.

[misc] / bookmaker.py

#!/usr/bin/env python3
import pypdf
import argparse
import io
from reportlab.lib.pagesizes import A4
a4_width, a4_height = A4
points_per_cm = 10 * 72 / 25.4
cut_depth = 1.95 * points_per_cm
cut_width = 1.05 * points_per_cm
middle_point_depth = 0.4 * points_per_cm

parser = argparse.ArgumentParser(description="build print-ready book PDF")
parser.add_argument("-i", "--input_file", action="append", required=True, help="input PDF file")
parser.add_argument("-o", "--output_file", required=True, help="output PDF file")
parser.add_argument("-p", "--page_range", action="append", help="page range, e.g., '3-end'")
parser.add_argument("-c", "--crop_range", action="append", help="cm crops left, bottom, right, top – e.g., '10,10,10,10'; prefix with ':'-delimited page range to limit effect")
parser.add_argument("-t", "--symmetry", action="store_true", help="alternate horizontal crops between odd and even pages")
parser.add_argument("-r", "--rotate", dest="rotate", type=int, action="append", help="rotate page of number by 90° (usable multiple times on same page!)")
parser.add_argument("-n", "--nup4", action='store_true', help="puts 4 input pages onto 1 output page")
parser.add_argument("-a", "--analyze", action="store_true", help="in --nup4, print lines identifying spine, page borders")
parser.add_argument("-m", "--margin", type=float, default=0.43, help="print margin for --nup4 in cm (default 0.43)")
parser.add_argument("-s", "--spine", type=float, default=1, help="on --nup4, cm width of margin hidden in spine (default 1)")
args = parser.parse_args()


# select pages from input files
def parse_page_range(range_string, pages):
    start_page = 0
    end_page = len(pages)
    if range_string:
        start, end = range_string.split('-')
        if not (len(start) == 0 or start == "start"):
            start_page = int(start) - 1
        if not (len(end) == 0 or end == "end"):
            end_page = int(end)
    return start_page, end_page
pages_to_add = []
opened_files = []
for i, input_file in enumerate(args.input_file):
    file = open(input_file, 'rb')
    opened_files += [file]
    reader = pypdf.PdfReader(file)
    range_string = None
    if args.page_range and len(args.page_range) > i:
        range_string = args.page_range[i]
    start_page, end_page = parse_page_range(range_string, reader.pages)
    for page_num in range(start_page, end_page):
        page = reader.pages[page_num]
        pages_to_add += [page]
        print("read in %s page number %d" % (input_file, page_num+1))

# rotate page canvas
if args.rotate:
    for rotate in args.rotate:
        page = pages_to_add[rotate - 1]
        page.add_transformation(pypdf.Transformation().translate(tx=-a4_width/2, ty=-a4_height/2))
        page.add_transformation(pypdf.Transformation().rotate(-90))
        page.add_transformation(pypdf.Transformation().translate(tx=a4_width/2, ty=a4_height/2))

# normalize all pages to portrait A4
for page in pages_to_add:
    if "/Rotate" in page:
        page.rotate(360 - page["/Rotate"])
    page.mediabox.left = 0
    page.mediabox.bottom = 0
    page.mediabox.top = a4_height
    page.mediabox.right = a4_width
    page.cropbox = page.mediabox

# determine page crops, zooms
crops_at_page = [(0,0,0,0)]*len(pages_to_add)
zoom_at_page = [1]*len(pages_to_add)
if args.crop_range:
  for crop_range in args.crop_range:
      initial_split = crop_range.split(':')
      if len(initial_split) > 1:
          page_range = initial_split[0]
          crops = initial_split[1]
      else:
          page_range = None
          crops = initial_split[0]
      start_page, end_page = parse_page_range(page_range, pages_to_add)
      crop_left, crop_bottom, crop_right, crop_top = [float(x) * points_per_cm for x in  crops.split(',')]
      cropped_width  = a4_width - crop_left - crop_right
      cropped_height = a4_height - crop_bottom - crop_top
      zoom = 1
      zoom_horizontal = a4_width / (a4_width - crop_left - crop_right)
      zoom_vertical = a4_height / (a4_height - crop_bottom - crop_top)
      if (zoom_horizontal > 1 and zoom_vertical < 1) or (zoom_horizontal < 1 and zoom_vertical > 1):
          print("Error: opposing zooms.")
          exit(1)
      elif zoom_horizontal + zoom_vertical > 2:
          zoom = min(zoom_horizontal, zoom_vertical)
      else:
          zoom = max(zoom_horizontal, zoom_vertical)
      for page_num in range(start_page, end_page):
          crops_at_page[page_num] = (crop_left, crop_bottom, crop_right, crop_top)
          zoom_at_page[page_num] = zoom

writer = pypdf.PdfWriter()
if not args.nup4:
    odd_page = True
    for i, page in enumerate(pages_to_add):
        crop_left, crop_bottom, crop_right, crop_top = crops_at_page[i]
        zoom = zoom_at_page[i]
        if args.symmetry and odd_page:
            page.add_transformation(pypdf.Transformation().translate(tx=-crop_right, ty=-crop_bottom))
        else:
            page.add_transformation(pypdf.Transformation().translate(tx=-crop_left, ty=-crop_bottom))
        page.add_transformation(pypdf.Transformation().scale(zoom, zoom))
        cropped_width  = a4_width - crop_left - crop_right
        cropped_height = a4_height - crop_bottom - crop_top
        page.mediabox.right = cropped_width * zoom
        page.mediabox.top = cropped_height * zoom
        writer.add_page(page)
        odd_page = not odd_page

else:
    n_pages_per_axis = 2
    spine_limit = args.spine * points_per_cm
    printable_margin = args.margin * points_per_cm
    printable_scale = (a4_width - 2*printable_margin)/a4_width
    half_width = a4_width / n_pages_per_axis
    half_height = a4_height / n_pages_per_axis
    section_scale_factor = 1 / n_pages_per_axis
    spine_part_of_page = (spine_limit / half_width) / printable_scale
    bonus_shrink_factor = 1 - spine_part_of_page
    new_page_order = []
    new_i_order = []
    eight_pack = []
    mod_to_8 = len(pages_to_add) % 8
    if mod_to_8 > 0:
        for _ in range(8 - mod_to_8):
            new_page = pypdf.PageObject.create_blank_page(width=a4_width, height=a4_height)
            pages_to_add += [new_page]
    i = 0
    n_eights = 0
    for page in pages_to_add:
        if i == 0:
            eight_pack = []
        eight_pack += [page]
        i += 1
        if i == 8:
            i = 0
            new_i_order += [8 * n_eights + 3,
                            8 * n_eights + 0,
                            8 * n_eights + 7,
                            8 * n_eights + 4,
                            8 * n_eights + 1,
                            8 * n_eights + 2,
                            8 * n_eights + 5,
                            8 * n_eights + 6]
            n_eights += 1
            new_page_order += [eight_pack[3]]  # page front, upper left
            new_page_order += [eight_pack[0]]  # page front, upper right
            new_page_order += [eight_pack[7]]  # page front, lower left
            new_page_order += [eight_pack[4]]  # page front, lower right
            new_page_order += [eight_pack[1]]  # page back, upper left
            new_page_order += [eight_pack[2]]  # page back, upper right
            new_page_order += [eight_pack[5]]  # page back, lower left
            new_page_order += [eight_pack[6]]  # page back, lower right
    i = 0
    page_count = 0
    front_page = True
    for j, page in enumerate(new_page_order):
        if i == 0:
            new_page = pypdf.PageObject.create_blank_page(width=a4_width, height=a4_height)

        # in-section transformations: align pages on top, left-hand pages to left, right-hand to right
        new_i = new_i_order[j]
        crop_left, crop_bottom, crop_right, crop_top = crops_at_page[new_i]
        zoom = zoom_at_page[new_i]
        page.add_transformation(pypdf.Transformation().translate(ty=(a4_height / zoom - (a4_height - crop_top))))
        if i == 0 or i == 2:
            if args.symmetry:
                page.add_transformation(pypdf.Transformation().translate(tx=-crop_left))
            else:
                page.add_transformation(pypdf.Transformation().translate(tx=-crop_right))
        elif i == 1 or i == 3:
            if args.symmetry:
                page.add_transformation(pypdf.Transformation().translate(tx=(a4_width / zoom - (a4_width - crop_left))))
            else:
                page.add_transformation(pypdf.Transformation().translate(tx=(a4_width / zoom - (a4_width - crop_right))))
        page.add_transformation(pypdf.Transformation().scale(zoom * bonus_shrink_factor, zoom * bonus_shrink_factor))
        if i == 2 or i == 3:
            page.add_transformation(pypdf.Transformation().translate(ty=-2*printable_margin/printable_scale))

        # outer section transformations
        page.add_transformation(pypdf.Transformation().translate(ty=(1-bonus_shrink_factor)*a4_height))
        if i == 0 or i == 1:
            y_section = a4_height
            page.mediabox.bottom = half_height
            page.mediabox.top    = a4_height
        if i == 2 or i == 3:
            y_section = 0
            page.mediabox.bottom = 0
            page.mediabox.top  =   half_height
        if i == 0 or i == 2:
            x_section = 0
            page.mediabox.left   = 0
            page.mediabox.right  = half_width
        if i == 1 or i == 3:
            page.add_transformation(pypdf.Transformation().translate(tx=(1-bonus_shrink_factor)*a4_width))
            x_section = a4_width
            page.mediabox.left   = half_width
            page.mediabox.right  = a4_width
        page.add_transformation(pypdf.Transformation().translate(tx=x_section, ty=y_section))
        page.add_transformation(pypdf.Transformation().scale(section_scale_factor, section_scale_factor))
        new_page.merge_page(page)
        page_count += 1
        print("merged page number", page_count)
        i += 1
        if i > 3:
            from reportlab.pdfgen import canvas
            if args.analyze:
                # borders
                packet = io.BytesIO()
                c = canvas.Canvas(packet, pagesize=A4)
                c.setLineWidth(0.1)
                c.line(0, a4_height, a4_width, a4_height)
                c.line(0, half_height, a4_width, half_height)
                c.line(0, 0, a4_width, 0)
                c.line(0, a4_height, 0, 0)
                c.line(half_width, a4_height, half_width, 0)
                c.line(a4_width, a4_height, a4_width, 0)
                c.save()
                new_pdf = pypdf.PdfReader(packet)
                new_page.merge_page(new_pdf.pages[0])
            printable_offset_x = printable_margin
            printable_offset_y = printable_margin * a4_height / a4_width
            new_page.add_transformation(pypdf.Transformation().scale(printable_scale, printable_scale))
            new_page.add_transformation(pypdf.Transformation().translate(tx=printable_offset_x, ty=printable_offset_y))
            x_left_spine_limit = half_width * bonus_shrink_factor
            x_right_spine_limit = a4_width - x_left_spine_limit
            if args.analyze or front_page:
                packet = io.BytesIO()
                c = canvas.Canvas(packet, pagesize=A4)
            if args.analyze:
                # # spine lines
                c.setLineWidth(0.1)
                c.line(x_left_spine_limit, a4_height, x_left_spine_limit, 0)
                c.line(x_right_spine_limit, a4_height, x_right_spine_limit, 0)
            if front_page:
                c.setLineWidth(0.2)

                start_up_left_left_x = x_left_spine_limit - 0.5 * cut_width
                start_up_left_right_x = x_left_spine_limit + 0.5 * cut_width
                middle_point_up_left_y = half_height + middle_point_depth
                end_point_up_left_y = half_height + cut_depth
                c.line(start_up_left_right_x, half_height, x_left_spine_limit, end_point_up_left_y)
                c.line(x_left_spine_limit, end_point_up_left_y, x_left_spine_limit, middle_point_up_left_y)
                c.line(x_left_spine_limit, middle_point_up_left_y, start_up_left_left_x, half_height)

                start_down_right_left_x = x_right_spine_limit - 0.5 * cut_width
                start_down_right_right_x = x_right_spine_limit + 0.5 * cut_width
                middle_point_down_right_y = half_height - middle_point_depth
                end_point_down_right_y = half_height - cut_depth
                c.line(start_down_right_left_x, half_height, x_right_spine_limit, end_point_down_right_y)
                c.line(x_right_spine_limit, end_point_down_right_y, x_right_spine_limit, middle_point_down_right_y)
                c.line(x_right_spine_limit, middle_point_down_right_y, start_down_right_right_x, half_height)

            if args.analyze or front_page:
                c.save()
                new_pdf = pypdf.PdfReader(packet)
                new_page.merge_page(new_pdf.pages[0])
            writer.add_page(new_page)
            i = 0
            front_page = not front_page
for file in opened_files:
    file.close()

with open(args.output_file, 'wb') as output_file:
    writer.write(output_file)