• 非线性


    from aip import AipSpeech
    
    bd_k_l = ['11059852', '5Kk01GtG2fjCwpzEkwdn0mjw', 'bp6Wyx377Elq7RsCQZzTBgGUFzLm8G2A']
    APP_ID, API_KEY, SECRET_KEY = bd_k_l
    
    
    def gen_bd_mp3(uid, str_):
        mp3_dir = 'C:\Users\sas\PycharmProjects\produce_video\mymp3\'
        mp3_dir = 'D:\mymp3\'
        client = AipSpeech(APP_ID, API_KEY, SECRET_KEY)
        result = client.synthesis(str_, 'zh', 1, {
            'vol': 5,
        })
        # 识别正确返回语音二进制 错误则返回dict 参照下面错误码
        if not isinstance(result, dict):
            f_w = '{}{}{}{}'.format(mp3_dir, 'semHAND', uid, '.mp3')
            #  with open('auido.b.mp3', 'wb') as f:
            with open(f_w, 'wb') as f:
                f.write(result)
    
    
    import os
    
    os_sep = os.sep
    this_file_abspath = os.path.abspath(__file__)
    this_file_dirname, this_file_name = os.path.dirname(this_file_abspath), os.path.abspath(__file__).split(os_sep)[-1]
    
    uid_d = []
    f, uid_n = 'html.parp.txt', 0
    sen_l = ['。', '
    ']
    
    whole_s = ''
    with open(f, 'r', encoding='utf-8') as fr:
        for i in fr:
            whole_s = '{}{}'.format(whole_s, i)
    
    # 设置分句的标志符号;可以根据实际需要进行修改
    # cutlist = "。!?".decode('utf-8')
    
    cutlist = ['
    ', '	', '。', ';', '?', '.', ';', '?', '...', '、、、', ':', '!', '!']
    cutlist = ['
    ', '	', '。', ';', '?', '.', '?', '...', '、、、', '!', '!']
    
    
    # cutlist = [ '。', ';', '?', '.', ';', '?', '...', '、、、',':',':',',']
    # cutlist = [ '。', ';', '?', '.', ';', '?', '...', '、、、',':',',','、']
    
    
    # 检查某字符是否分句标志符号的函数;如果是,返回True,否则返回False
    def FindToken(cutlist, char):
        if char in cutlist:
            return True
        else:
            return False
    
    
    # 进行分句的核心函数
    def Cut(cutlist, lines):  # 参数1:引用分句标志符;参数2:被分句的文本,为一行中文字符
        l = []  # 句子列表,用于存储单个分句成功后的整句内容,为函数的返回值
        line = []  # 临时列表,用于存储捕获到分句标志符之前的每个字符,一旦发现分句符号后,就会将其内容全部赋给l,然后就会被清空
    
        for i in lines:  # 对函数参数2中的每一字符逐个进行检查 (本函数中,如果将if和else对换一下位置,会更好懂)
            if FindToken(cutlist, i):  # 如果当前字符是分句符号
                line.append(i)  # 将此字符放入临时列表中
                l.append(''.join(line))  # 并把当前临时列表的内容加入到句子列表中
                line = []  # 将符号列表清空,以便下次分句使用
            else:  # 如果当前字符不是分句符号,则将该字符直接放入临时列表中
                line.append(i)
        return l
    
    
    sentence_l = Cut(list(cutlist), list(whole_s))
    sentence_l_noblank = []
    for i in sentence_l:
        if i != '
    ':
            sentence_l_noblank.append(i.replace('
    ', ''))
    
    '''
    在标点符号正确的情况下分割出自然的句子
    '''
    
    '''
    以句子为单位生成声音
    '''
    
    from aip import AipSpeech
    
    bd_k_l = ['11059852', '5Kk01GtG2fjCwpzEkwdn0mjw', 'bp6Wyx377Elq7RsCQZzTBgGUFzLm8G2A']
    APP_ID, API_KEY, SECRET_KEY = bd_k_l
    
    
    def gen_bd_mp3(uid, str_):
        mp3_dir = 'C:\Users\sas\PycharmProjects\produce_video\mymp3\'
        mp3_dir = 'D:\mymp3\'
        client = AipSpeech(APP_ID, API_KEY, SECRET_KEY)
        result = client.synthesis(str_, 'zh', 1, {
            'vol': 5,
        })
        # 识别正确返回语音二进制 错误则返回dict 参照下面错误码
        if not isinstance(result, dict):
            f_w = '{}{}{}{}'.format(mp3_dir, 'oneSen', uid, '.mp3')
            #  with open('auido.b.mp3', 'wb') as f:
            with open(f_w, 'wb') as f:
                f.write(result)
    
    
    uid_d = {}
    uid, uid_n = 43020157, 0
    uid_d[uid] = {}
    uid_d[uid]['sen_d'], uid_d[uid]['img_l'] = {}, []
    for i in sentence_l_noblank:
        uid_sen = '{}{}{}'.format(uid, '_', uid_n)
        # gen_bd_mp3(uid_sen, i)
        uid_n += 1
        mp3_dir = 'D:\mymp3\'
        f_w = '{}{}{}{}'.format(mp3_dir, 'oneSen', uid_sen, '.mp3')
        uid_d[uid]['sen_d'][f_w] = i
    
    import glob
    
    f_img_d = '{}{}{}{}{}'.format(this_file_dirname, os_sep, 'mypng', os_sep, '*.jpg')
    imgs = glob.glob(f_img_d)
    uid_d[uid]['img_l'] = []
    for i in imgs:
        if 'logo' in i:
            if 'uid' in i:
                #      print(i)
                uid_d[uid]['img_logo_uid'] = i
            else:
                uid_d[uid]['img_logo_our'] = i
        else:
            uid_d[uid]['img_l'].append(i)
    
    for i in uid_d[uid]:
        print(i)
    
    import os, time, glob
    import cv2
    
    os_sep = os.sep
    this_file_abspath = os.path.abspath(__file__)
    this_file_dirname, this_file_name = os.path.dirname(this_file_abspath), os.path.abspath(__file__).split(os_sep)[-1]
    
    logo_f, logo_f_uid, imgs = uid_d[uid]['img_logo_our'], uid_d[uid]['img_logo_uid'], uid_d[uid]['img_l']
    img_size_d = {}
    for i in imgs:
        img = cv2.imread(i)
        w_h_s = '{},{}'.format(img.shape[1], img.shape[0])
        if w_h_s not in img_size_d:
            img_size_d[w_h_s] = 1
        else:
            img_size_d[w_h_s] += 1
    
    # 取众数
    mode_img_size_wh = [int(i) for i in
                        sorted(img_size_d.items(), key=lambda mytuple: mytuple[1], reverse=True)[0][0].split(',')]
    mode_img_size_wh = [1208, 720]
    os_sep = os.sep
    
    import imageio
    
    imageio.plugins.ffmpeg.download()
    from moviepy.editor import VideoFileClip
    # f_mp3 = 'g3dbG3g3uidnoBRBlankLine.06.mp3'
    import mutagen.id3
    from mutagen.easyid3 import EasyID3
    from mutagen.mp3 import MP3
    # EasyID3.valid_keys["comment"] = "COMM::'XXX'"
    # id3info = MP3(f_mp3, ID3=EasyID3)
    # t_spend = id3info.info.length
    import cv2
    import glob
    
    
    def resize_rescale_pilimg(img_f, w_h_tuple=(mode_img_size_wh[0], mode_img_size_wh[1]), mid_factor=1):
        img_n, img_type = img_f.split('.')[-2], img_f.split('.')[-1]
        img_n_resize_rescale_pilimg_dir = '{}{}{}'.format(os_sep.join(img_n.split(os_sep)[:-1]), 'resize_rescale_pilimg',
                                                          os_sep, img_n.split(os_sep)[-1], os_sep)
        img_n_resize_rescale_pilimg = '{}{}{}'.format(img_n_resize_rescale_pilimg_dir, img_n.split(os_sep)[-1], '.PNG')
        img_type = 'PNG'
        img_f_new = img_n_resize_rescale_pilimg
        mid_icon = Image.open(img_f)
        mid_icon_w, mid_icon_h = w_h_tuple[0] * mid_factor, w_h_tuple[1] * mid_factor
        mid_icon = mid_icon.resize((mid_icon_w, mid_icon_h), Image.ANTIALIAS)
        mid_icon.save(img_n_resize_rescale_pilimg, img_type)
        return img_f_new
    
    
    from PIL import Image, ImageDraw, ImageFont
    
    myfont = ImageFont.truetype("simhei.ttf", encoding="utf-8")
    import cv2
    import numpy as np
    import math
    
    br_step = math.floor((mode_img_size_wh[0]) * 0.0185)
    
    
    def gen_video(os_delay_factor=0.046, bear_error_second=0.05):
        audio_spend = 0
        f_v = '{}{}{}{}'.format('D:\myv\', uid, int(time.time()), '.avi')
        fps, fourcc = 15, cv2.VideoWriter_fourcc('M', 'J', 'P', 'G')
        videoWriter = cv2.VideoWriter(f_v, fourcc, fps, (mode_img_size_wh[0], mode_img_size_wh[1]))
        img_seq = 0
        for f_mp3 in uid_d[uid]['sen_d']:
            screen_str = uid_d[uid]['sen_d'][f_mp3]
            screen_str_l = []
            br_step_times = math.ceil(len(screen_str) / br_step)
    
            for i in range(br_step_times):
                myrow = screen_str[i * br_step:(i + 1) * br_step]
                screen_str_l.append(myrow)
            screen_str = '
    '.join(screen_str_l)
    
    
            imgname = uid_d[uid]['img_l'][img_seq % len(uid_d[uid]['img_l'])]
            img_seq += 1
            frame = cv2.imread(imgname)
            if (frame.shape[1], frame.shape[0]) != (mode_img_size_wh[0], mode_img_size_wh[1]):
                imgname = resize_rescale_pilimg(imgname)
                frame = cv2.imread(imgname)
            else:
                pass
    
            img1 = cv2.imread(imgname)  # 加载图像
            img2 = cv2.imread(logo_f)  # logo
            rows, cols, channels = img2.shape
            roi = img1[0:rows, 0:cols]  # 取img1的这个区域来处理
            img2gray = cv2.cvtColor(img2, cv2.COLOR_BGR2GRAY)  # 建立logo的二值图,也建立相反的二值图
            ret, mask = cv2.threshold(img2gray, 175, 255, cv2.THRESH_BINARY)  # 二值化
            mask_inv = cv2.bitwise_not(mask)  # 做非操作,黑的变白,白的变黑,黑色0,白色255
            img1_bg = cv2.bitwise_and(roi, roi, mask=mask)  # 与操作 ,参数输入,输出,与mask做and操作,黑色的被填充
            img2_fg = cv2.bitwise_and(img2, img2, mask=mask_inv)  # 与操作
            dst = cv2.add(img1_bg, img2_fg)  # 相加
            img1[0:rows, 0:cols] = dst  # 把添加了logo的该区域赋值回原来的地方
    
            img3 = cv2.imread(logo_f_uid)  # logo
            rows, cols, channels = img3.shape
            rows1, cols1, channels1 = img1.shape
            roi = img1[0:rows, cols1 - cols:cols1]  # 取img1的这个区域来处理
            img3gray = cv2.cvtColor(img3, cv2.COLOR_BGR2GRAY)  # 建立logo的二值图,也建立相反的二值图
            ret, mask = cv2.threshold(img3gray, 175, 255, cv2.THRESH_BINARY)  # 二值化
            mask_inv = cv2.bitwise_not(mask)  # 做非操作,黑的变白,白的变黑,黑色0,白色255
            img1_bg = cv2.bitwise_and(roi, roi, mask=mask)  # 与操作 ,参数输入,输出,与mask做and操作,黑色的被填充
            img3_fg = cv2.bitwise_and(img3, img3, mask=mask_inv)  # 与操作
            dst = cv2.add(img1_bg, img3_fg)  # 相加
            img1[0:rows, cols1 - cols:cols1] = dst  # 把添加了logo的该区域赋值回原来的地方
    
            frame = img1
            frame_cv2 = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)
            frame_pil = Image.fromarray(frame_cv2)  # 转为PIL的图片格式
            font_size = math.floor((mode_img_size_wh[0]) * 0.040)
            font = ImageFont.truetype("simhei.ttf", font_size, encoding="utf-8")
            f_x, f_y = math.floor((mode_img_size_wh[0]) * 0.06), math.floor(
                mode_img_size_wh[1] * 0.85) - br_step_times * font_size
            ImageDraw.Draw(frame_pil).text((f_x, f_y), screen_str, (255, 0, 0), font)
            frame_cv2 = cv2.cvtColor(np.array(frame_pil), cv2.COLOR_RGB2BGR)
            img = frame_cv2
    
            EasyID3.valid_keys["comment"] = "COMM::'XXX'"
            id3info = MP3(f_mp3, ID3=EasyID3)
            t_spend = id3info.info.length
    
            audio_spend += t_spend
            print(audio_spend)
            myinterval = t_spend * os_delay_factor
            print(myinterval, '---------------', screen_str)
            this_time = time.time()
            while time.time() - this_time < myinterval:
                videoWriter.write(img)
        videoWriter.release()
        time.sleep(1)
    
        print(f_v)
        video_playtime = VideoFileClip(f_v).duration
        print(math.fabs(video_playtime - audio_spend ))
        if math.fabs(video_playtime - audio_spend )>bear_error_second:
            os_delay_factor *= audio_spend / video_playtime
            gen_video(os_delay_factor, bear_error_second=0.05)
        else:
            os._exit(123)
    gen_video(os_delay_factor=0.001, bear_error_second=0.05)
    ddd = 9
    

      

    以上代码成立的前提 是 系统是线性 的 

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  • 原文地址:https://www.cnblogs.com/rsapaper/p/8875803.html
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