import os
import sys
import fitz
import argparse
from PIL import Image
from io import BytesIO

if sys.version_info[0] < 3:
    raise Exception("This program requires at least python3.6")

parser = argparse.ArgumentParser(description='PDF转图片')
parser.add_argument('-i', '--input', help='PDF文件或目录路径，必要参数', required=True)
parser.add_argument('-o', '--output', help='输出图片保存路径，非必要参数，缺省值为PDF文件路径')
parser.add_argument('-e', '--extract', help='默认采用整个页面保存png图片的方式，增加该选项选择提取图片方式转化图片', action="store_true")
args = parser.parse_args()

LOG_BASE = '[pdf to img]'

# 页面保存为png图片参数
ZOOM_X_1 = ZOOM_Y_1 = 1.0
ZOOM_X_2 = ZOOM_Y_2 = 2.0
trans_1 = fitz.Matrix(ZOOM_X_1, ZOOM_X_1).preRotate(0)  # zoom factor 1 in each dimension
trans_2 = fitz.Matrix(ZOOM_X_2, ZOOM_X_2).preRotate(0)  # zoom factor 2 in each dimension

# 特殊filter处理
ADOBE_FILTER_SET = {'FlateDecode', 'JPXDecode', 'JBIG2Decode'}

# 宽高阈值组合
WH_COUPLE_1 = (500, 500)
WH_COUPLE_2 = (700, 647)
WH_COUPLE_3 = (100, 100)
WH_COUPLE_4 = (100, 300)
WH_COUPLE_5 = (100, 200)


class PDFHandler:

    def __init__(self, path, target_path):
        self.path = path
        self.img_dir_path = os.path.join(target_path, os.path.splitext(os.path.basename(path))[0])
        self.xref_set = set()

    def get_img_save_path(self, pno, img_index=0, ext='jpeg'):
        return os.path.join(self.img_dir_path, 'page_{0}_img_{1}.{2}'.format(pno, img_index, ext))

    def page_to_png(self, page):
        if page.MediaBoxSize.x > 1500 or page.MediaBoxSize.y > 1500:
            pm = page.getPixmap(matrix=trans_1, alpha=False)
        else:
            pm = page.getPixmap(matrix=trans_2, alpha=False)
        img_save_path = self.get_img_save_path(page.number)
        pm.writeImage(img_save_path)
        # pm.writePNG(img_save_path)

    @staticmethod
    def getimage(pix):
        # RGB
        if pix.colorspace.n != 4:
            return pix
        # GRAY/CMYK
        tpix = fitz.Pixmap(fitz.csRGB, pix)
        return tpix

    def recover_pix(self, doc, xref, smask, colorspace):
        if smask != 0:
            # we need to reconstruct the alpha channel with the smask
            pix1 = fitz.Pixmap(doc, xref)
            pix2 = fitz.Pixmap(doc, smask)  # create pixmap of the /SMask entry

            # sanity check
            if not (pix1.irect == pix2.irect and pix1.alpha == pix2.alpha == 0 and pix2.n == 1):
                pix2 = None
                return self.getimage(pix1)

            pix = fitz.Pixmap(pix1)  # copy of pix1, alpha channel added
            pix.setAlpha(pix2.samples)  # treat pix2.samples as alpha value
            pix1 = pix2 = None  # free temp pixmaps
            return self.getimage(pix)
        elif colorspace in {'Separation', 'DeviceCMYK'}:
            pix = fitz.Pixmap(doc, xref)
            tpix = fitz.Pixmap(fitz.csRGB, pix)
            return tpix
        else:
            res = doc.extractImage(xref)
            if res is None:
                return fitz.Pixmap(doc, xref)
            else:
                return res
            # return doc.extractImage(xref)

    @staticmethod
    def get_img_data(pix):
        if type(pix) is dict:  # we got a raw image
            ext = pix["ext"]
            img_data = pix["image"]
        else:  # we got a pixmap
            ext = 'png'
            img_data = pix.getPNGData()
        return ext, img_data

    def extract_single_image(self, pdf, xref, smask, colorspace, pno, img_index=0):
        pix = self.recover_pix(pdf, xref, smask, colorspace)
        ext, img_data = self.get_img_data(pix)
        if ext == 'jpx':
            img_save_path = self.get_img_save_path(pno, img_index=img_index)
            jpx_pix = fitz.Pixmap(img_data)
            jpx_pix.writeImage(img_save_path)
            jpx_pix = None
        else:
            img_save_path = self.get_img_save_path(pno, img_index=img_index, ext=ext)
            with open(img_save_path, "wb") as f:
                f.write(img_data)
        self.xref_set.add(xref)

    @staticmethod
    def split_il(il):
        broken_il = []
        start = 0
        length = len(il)
        page_to_png = None
        for i in range(length):
            # 当图片对象含有特殊filter时，特殊处理：整个页面保存为png图片
            if il[i][-1] in ADOBE_FILTER_SET:
                page_to_png = True
                break
        else:
            for i in range(length):
                # 当图片对象够大时，不作碎图合并处理，而是单纯提取
                if il[i][2] >= WH_COUPLE_2[0] and il[i][3] >= WH_COUPLE_2[1]:
                    break
                if i == start:
                    if i == length - 1:
                        broken_il.append(il[start: length])
                    continue
                elif i == length - 1:
                    if il[i][2] == il[i - 1][2]:
                        broken_il.append(il[start: length])
                    else:
                        broken_il.append(il[start: i])
                        broken_il.append(il[i: length])
                    continue
                if il[i][2] != il[i - 1][2]:
                    broken_il.append(il[start: i])
                    start = i
                elif il[i][3] != il[i - 1][3]:
                    broken_il.append(il[start: i + 1])
                    start = i + 1
            else:
                # 碎图分组结果
                return broken_il
        return page_to_png

    def merge_il(self, pdf, pno, il):
        # 尝试碎图合并前的分组
        il.sort(key=lambda x: x[0])
        broken_il = self.split_il(il)
        print('broken_il: {0}'.format(broken_il))

        page_to_png = True
        # 3.1 当图片对象够大时，不作碎图合并处理，而是单纯提取
        if broken_il is None:
            page_to_png = False
            for img_index, img in enumerate(il):
                xref, smask, width, height, _, colorspace, _, _, adobe_filter = img
                if width < WH_COUPLE_3[0] or height < WH_COUPLE_3[1]:  # 过滤小图(如二维码)
                    continue
                elif xref not in self.xref_set:
                    self.extract_single_image(pdf, xref, smask, colorspace, pno, img_index)
        # 3.2 碎图按照分组合并
        elif isinstance(broken_il, list) and len(broken_il) <= 2:
            for img_index, img_il in enumerate(broken_il):
                # 3.2.1 仅一张碎图，过滤或直接提取
                if len(img_il) == 1:
                    xref, smask, width, height, _, colorspace, _, _, adobe_filter = img_il[0]
                    # 过滤小图(如二维码)
                    if width < WH_COUPLE_4[0] or height < WH_COUPLE_4[1] or \
                            (width < WH_COUPLE_1[0] and height < WH_COUPLE_1[1]):
                        continue
                    elif xref not in self.xref_set:
                        self.extract_single_image(pdf, xref, smask, colorspace, pno, img_index)
                        page_to_png = False
                # 3.2.2 多张碎图，竖向拼接
                else:
                    height_sum = sum([img[3] for img in img_il])
                    width = img_il[0][2]
                    # 过滤小图和不常规大图
                    if width < WH_COUPLE_5[0] or height_sum < WH_COUPLE_5[1] or \
                            (width > 1000 and height_sum > width * 3):
                        continue
                    im_list = []
                    for img in img_il:
                        xref, smask, _, height, _, colorspace, _, _, adobe_filter = img
                        pix = self.recover_pix(pdf, xref, smask, colorspace)
                        ext, img_data = self.get_img_data(pix)
                        im = Image.open(BytesIO(img_data))
                        im_list.append((height, im, ext))
                    new_img = Image.new(im_list[0][1].mode, (width, height_sum))
                    h_now = 0
                    for h, m, _ in im_list:
                        new_img.paste(m, box=(0, h_now))
                        h_now += h
                    img_save_path = self.get_img_save_path(pno, img_index, im_list[0][2])
                    new_img.save(img_save_path)
                    page_to_png = False

        # 3.3 碎图分组大于2、全过滤、含特殊filter，特殊处理：整个页面保存为png图片
        if page_to_png:
            page = pdf.loadPage(pno)
            self.page_to_png(page)

    def extract_image(self, is_extract):
        os.makedirs(self.img_dir_path, exist_ok=True)
        with fitz.Document(self.path) as pdf:
            print('++++++++++' * 5)
            print('{0} [start] [pdf_path={1}] [metadata={2}]'.format(LOG_BASE, self.path, pdf.metadata))
            for pno in range(pdf.pageCount):
                il = pdf.getPageImageList(pno) if is_extract else [] # 获取页面图片对象
                # (xref, smask, width, height, bpc, colorspace, alt.colorspace, name, filter, invoker)
                print('---------- page: {0} ----------'.format(pno))
                print('img_object_list: {0}'.format(il))

                # 单纯提取页面图片对象
                # for img_index, img in enumerate(il):
                #     pix = self.recover_pix(pdf, img[0], img[1], img[5])
                #     ext, img_data = self.get_img_data(pix)
                #     img_save_path = self.get_img_save_path(pno, img_index, ext)
                #     with open(img_save_path, "wb") as f:
                #         f.write(img_data)

                # 1.页面图片对象数目为0时，保存整个页面为png图片
                if len(il) == 0:
                    page = pdf.loadPage(pno)
                    self.page_to_png(page)
                # 2.页面图片对象数目为1时：
                # 小图(如电子账单的盖章)：保存整个页面为png图片
                # 大图：提取图片对象
                elif len(il) == 1:
                    xref, smask, width, height, _, colorspace, _, _, _ = il[0]
                    # 小图
                    if width < WH_COUPLE_1[0] and height < WH_COUPLE_1[1]:
                        page = pdf.loadPage(pno)
                        self.page_to_png(page)
                    # 大图
                    elif xref not in self.xref_set:
                        self.extract_single_image(pdf, xref, smask, colorspace, pno)
                # 3.页面图片对象数目大于1时，特殊处理
                else:
                    self.merge_il(pdf, pno, il)


def extract_image(pdf_path, target_path, is_extract):
    pdf_handler = PDFHandler(pdf_path, target_path)
    pdf_handler.extract_image(is_extract)


def main():
    if not os.path.exists(args.input):
        print('PDF文件或目录不存在: {0}'.format(args.input))
        return
    pdf_path = os.path.realpath(args.input)
    # 目录：遍历处理所有pdf文件
    if os.path.isdir(pdf_path):
        completed_count = 0
        failed_list = []
        for parent, dirnames, filenames in os.walk(pdf_path):
            # 图片保存目录
            # target_path = os.path.realpath(args.output) if args.output else parent
            target_path = parent.replace(pdf_path, args.output)
            for pdf_file in filenames:
                if not pdf_file.endswith('pdf') and not pdf_file.endswith('PDF'):
                    continue
                pdf_file_path = os.path.join(parent, pdf_file)
                try:
                    extract_image(pdf_file_path, target_path, args.extract)
                except Exception as e:
                    print('{0} [failed] [err={1}] [pdf_path={2}]'.format(LOG_BASE, e, pdf_file_path))
                    failed_list.append(pdf_file_path)
                else:
                    print('{0} [completed] [pdf_path={1}]'.format(LOG_BASE, pdf_path))
                    completed_count += 1
        print('{0} [all completed] [completed_count={1}] [failed_count={2}] [failed_pdf_path={3}]'.format(
            LOG_BASE, completed_count, len(failed_list), failed_list))
    # 文件：处理pdf文件
    else:
        # 图片保存目录
        target_path = os.path.realpath(args.output) if args.output else os.path.dirname(pdf_path)
        try:
            extract_image(pdf_path, target_path, args.extract)
        except Exception as e:
            print('{0} [failed] [err={1}] [pdf_path={2}]'.format(LOG_BASE, e, pdf_path))
        else:
            print('{0} [completed] [pdf_path={1}]'.format(LOG_BASE, pdf_path))


if __name__ == "__main__":
    main()