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[完整特效] [J]036_Accel_World_OP特效脚本 (附完整工程) [复制链接]

milkyjing

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TCAX Dev.

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电梯直达

楼主

发表于 2012-5-10 12:59:22 |只看该作者 |倒序浏览

说明: 代码可以写得紧凑点(几个main函数可以合成一个), 之所以分开写是为了提供一个这样的参考----在必要的时候可以分成多个来写.

Accel_World_OP_FX.rar (5.75 MB, 下载次数: 54352)

from tcaxPy import *
from util.magick import *
def tcaxPy_Init():
global _Fs
global _FD # 一帧的持续时间, 约40毫秒
global Font # 首要字体
global FontAll # 加粗字体
global IMG_blast
global IMG_star
global IMG_revball
global IMG_star2
global IMG_flare
#global PIX_mask
_Fs = GetVal(val_FontSize)
_FD = 1000 / GetVal(val_FXFPS)
_FontFileName = GetVal(val_FontFileName)
_FaceID = GetVal(val_FaceID)
Font = InitFont(_FontFileName, _FaceID, _Fs, GetVal(val_Spacing), GetVal(val_SpaceScale), 0xFFFFFF, 0, 0)
FontAll = InitFont(_FontFileName, _FaceID, _Fs, GetVal(val_Spacing), GetVal(val_SpaceScale), 0xFFFFFF, 4, 0)
# images
img = Image(abspath('images/cosmic-blast-02.png')) #flare-0005.png'))
img.resize('100x100000')
img.backgroundColor('Transparent')
IMG_blast = img
img = Image(abspath('images/star-027.png'))
img.resize('300x100000')
img.backgroundColor('Transparent')
IMG_star = img
img = Image(abspath('images/revolution-ball-04.png'))
img.resize('200x100000')
img.backgroundColor('Transparent')
IMG_revball = img
img = Image(abspath('images/star-036.png'))
img.resize('300x100000')
img.backgroundColor('Transparent')
IMG_star2 = img
img = Image(abspath('images/flare-soft-spikey-violet-star.png'))
img.backgroundColor('Transparent')
IMG_flare = img
# img = Image(abspath('images/dmsk0003.jpg')) #flare-0005.png'))
# img.resize('200x100000')
# img.crop('200x200+100+100')
# img.write(abspath('images/mask.png'))
# Pause()
# PIX_mask = PixColorMul(addA(r2a(ImagePix(abspath('images/mask.png'))), 40), 1, 1, 1, 1.2)
# img = Image(abspath('images/backdrop-0016.jpg'))
# img.crop('800x300+0+200')
# img.write(abspath('images/a.png'))
# Pause()
# img = Image(abspath('images/gradient.png'))
# img.rotate(90)
# img.resize('!800x300')
# img.write(abspath('images/gradient2.png'))
# Pause()
# PIX = ImagePix(abspath('images/a.png'))
# mask = PixColorMul(addA(invertA(ImagePix(abspath('images/gradient2.png'))), -40), 1, 1, 1, 2)
# PIX = PixMask(PIX, mask)
# SavePix(abspath('images/b.png'), PIX)
# Pause()
# img = Image(abspath('images/purple-spin.png'))
# img.crop('800x240+0+0')
# img.write(abspath('images/c.png'))
# Pause()
def tcaxPy_Fin():
FinFont(Font)
FinFont(FontAll)
def tcaxPy_User():
file_name = GetVal(val_OutFile) + '.tcas'
fx_width = GetVal(val_ResolutionX)
fx_height = GetVal(val_ResolutionY)
fx_fps = GetVal(val_FXFPS)
TCAS_FILE = CreateTcasFile(file_name, fx_width, fx_height, fx_fps)
# basic metrics
fontSize = GetVal(val_FontSize)
marginX = GetVal(val_OffsetX)
marginY = GetVal(val_OffsetY)
spacing = GetVal(val_Spacing)
lineNum = GetVal(val_nLines)
textNum = GetVal(val_nTexts)
start = GetVal(val_BegTime)
end = GetVal(val_EndTime)
kar = GetVal(val_KarTime)
elapKar = GetVal(val_KarTimeDiff)
text = GetVal(val_Text)
textLength = GetVal(val_TextLength)
advance = GetVal(val_TextAdvance)
advDiff = GetVal(val_TextAdvanceDiff)
# main loop
# part1
for i in range(3): #3
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part1(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = ImagePix(abspath('images/b.png'), PIX_mask[1][0], PIX_mask[1][1])
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
progress(ii + 1, num)
# part2
for i in range(3, 4): # 3, 4
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part2(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = switchRB(ImagePix(abspath('images/transportation-beam-01.png'), PIX_mask[1][0], PIX_mask[1][1]))
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
progress(ii + 1, num)
# part3
for i in range(4, 6): # 4, 6
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part3(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = ImagePix(abspath('images/c.png'), PIX_mask[1][0], PIX_mask[1][1])
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
progress(ii + 1, num)
# part4
for i in range(6, 7): # 6, 7
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part4(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = ImagePix(abspath('images/star-018.png'), PIX_mask[1][0], PIX_mask[1][1])
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
progress(ii + 1, num)
# part5
for i in range(7, 8): # 7, 8
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part5(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = PixResize(PixStrip(ImagePix(abspath('images/explosion-of-colors-001.png'))) , PIX_mask[1][0], PIX_mask[1][1])
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
#progress(ii + 1, num)
# part6 = part1
for i in range(8, lineNum): # 8, lineNum
initPosX = fx_width - textLength[i] - marginX
initPosY = marginY
BIG_PIX = InitBigPix()
for j in range(textNum[i]):
if text[i][j] == '' or text[i][j] == ' ' or text[i][j] == '　':
continue
posX = initPosX + advDiff[i][j] + advance[i][j] / 2
posY = initPosY + fontSize / 2
foo_bar = 0 # 实际上想传什么样的参数, 完全由我们自己决定, 数量也不受限制
param = [BIG_PIX, foo_bar]
ASS_BUF, TCAS_BUF = tcaxPy_Main_part1(i, j, textNum[i], start[i], end[i], elapKar[i][j], kar[i][j], posX, posY, advance[i][j], text[i][j], param)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
Progress(i, j)
PIX_mask = ConvertBigPix(BIG_PIX)
num = textNum[i] + 6
PIX_i = ImagePix(abspath('images/b.png'), PIX_mask[1][0], PIX_mask[1][1])
for ii in range(num):
TCAS_BUF = []
PIX = PixPos(PIX_i, PIX_mask[0][0] + 1.5 * PIX_i[1][0] * (-0.5 + (ii + 1) / num), PIX_mask[0][1])
PIX = PixMask(PIX, PIX_mask)
PIX = PixColorMul(PIX, 1, 1, 1, sqrFactor(-0.5 + ii / num))
tcas_main(TCAS_BUF, PIX, start[i] * 10 - 6 * _FD + ii * _FD, start[i] * 10 - 6 * _FD + (ii + 1) * _FD, 0, 0, 1)
WriteTcasFile(TCAS_FILE, TCAS_BUF)
progress(ii + 1, num)
FinTcasFile(TCAS_FILE)
def tcaxPy_Main_part1(_i, _j, _n, _start, _end, _elapk, _k, _x, _y, _a, _txt, param):
ASS_BUF = [] # 保存ASS特效
TCAS_BUF = [] # 保存TCAS特效
##### 主要特效编写操作 ####
dx = _x - int((_a + GetVal(val_Spacing)) / 2 + 0.5) # 一个固定操作, 将an5的坐标转换为an7
dy = _y - int(_Fs / 2 + 0.5) # ASS特效默认采用an5坐标, TCAS特效则采用an7坐标
###
PIX_t = TextPix(Font, _txt)
PIX = TextPix(FontAll, _txt)
PIX_s = PixColorMul(PixBlur(PIX, 20), 1, 1, 1, 0.8)
PIX = CombinePixs(PIX_s, PIX_t)
BigPixAdd(param[0], PIX, dx, dy, 0)
PIX0 = PIX
# 一些时间的计算
T0 = 10 * _start - 10 * _FD + 1 * _j * _FD
T1 = T0 + 4 * _FD
T2 = 10 * _end + 5 * _FD - 2 * (_n - _j - 1) * _FD
T3 = T2 + _FD * 4
# IN 进入方式
#PIX = PIX0
img = pmgToImage(a2rgb(PIX))
img.shade(0, 45, True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 1, 0, 0, 1)
tcas_keyframe(TCAS_BUF, PixBlur(PixColorMul(PIX2, 1, 1, 1, 0.2), 10), PIX2, T0, T1, dx, dy, 1, 0)
# MAIN 存在方式
#PIX = PIX0
num = int((10 * (_start + _elapk + min(_k, 80)) - T1) / _FD + 0.5) + 1
for i in range(num):
img = pmgToImage(a2rgb(PIX))
img.shade(i * 10, randint(44, 58), True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 1, 0.5 * i / num, 0, 1)
tcas_main(TCAS_BUF, PIX2, T1 + i * _FD, T1 + (i + 1) * _FD, dx, dy, 1)
# OUT 消失方式
tcas_keyframe(TCAS_BUF, PIX2, PixColorMul(PixBlur(PIX2, 16), 1, 1, 1, 0), T1 + num * _FD, 10 * (_start + _elapk + min(_k, 80) * 2), dx, dy, 2, 1)
TK = 10 * (_start + _elapk)
num = int(10 * min(_k, 80) / _FD + 0.5) + 6
for i in range(num):
img = Image(IMG_blast)
img.rotate(360 * 0.8 * i / num)
PIX = pmgToPix(img)#PixColorMul(pmgToPix(img), 1, 1, 1, 0.6 + 0.4 * (num - i - 1) / num)
PIX = PixPos(PIX, PIX_t[0][0] + (PIX_t[1][0] - PIX[1][0]) / 2, PIX_t[0][1] + (PIX_t[1][1] - PIX[1][1]) / 2)
tcas_main(TCAS_BUF, PIX, TK + i * _FD, TK + (i + 1) * _FD, dx, dy, 0)
##### 将结果返回给tcax进行处理 #####
return (ASS_BUF, TCAS_BUF)
def tcaxPy_Main_part2(_i, _j, _n, _start, _end, _elapk, _k, _x, _y, _a, _txt, param):
ASS_BUF = [] # 保存ASS特效
TCAS_BUF = [] # 保存TCAS特效
##### 主要特效编写操作 ####
dx = _x - int((_a + GetVal(val_Spacing)) / 2 + 0.5) # 一个固定操作, 将an5的坐标转换为an7
dy = _y - int(_Fs / 2 + 0.5) # ASS特效默认采用an5坐标, TCAS特效则采用an7坐标
###
PIX_t = TextPix(Font, _txt)
PIX = TextPix(FontAll, _txt)
PIX_s = PixColorMul(PixBlur(PIX, 20), 1, 1, 1, 0.8)
PIX = CombinePixs(PIX_s, PIX_t)
BigPixAdd(param[0], PIX, dx, dy, 0)
PIX0 = PIX
# 一些时间的计算
T0 = 10 * _start - 10 * _FD + 1 * _j * _FD
T1 = T0 + 4 * _FD
T2 = 10 * _end + 5 * _FD - 2 * (_n - _j - 1) * _FD
T3 = T2 + _FD * 4
# IN 进入方式
#PIX = PIX0
img = pmgToImage(a2rgb(PIX))
img.shade(0, 45, True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 0, 0, 0.7, 1)
tcas_keyframe(TCAS_BUF, PixBlur(PixColorMul(PIX2, 1, 1, 1, 0.2), 10), PIX2, T0, T1, dx, dy, 1, 0)
# MAIN 存在方式
#PIX = PIX0
num = int((10 * (_start + _elapk + min(_k, 80)) - T1) / _FD + 0.5) + 1
for i in range(num):
img = pmgToImage(a2rgb(PIX))
img.shade(i * 10, randint(44, 58), True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 0, 0.5 * i / num, 0.7, 1)
tcas_main(TCAS_BUF, PIX2, T1 + i * _FD, T1 + (i + 1) * _FD, dx, dy, 1)
# OUT 消失方式
tcas_keyframe(TCAS_BUF, PIX2, PixColorMul(PixBlur(PIX2, 16), 1, 1, 1, 0), T1 + num * _FD, 10 * (_start + _elapk + min(_k, 80) * 2), dx, dy, 2, 1)
TK = 10 * (_start + _elapk)
num = int(10 * min(_k, 80) * 2 / _FD + 0.5) + 6
for i in range(num):
img = Image(IMG_star)
img.rotate(360 * 0.8 * i / num)
PIX = PixColorMul(pmgToPix(img), 1, 1, 1, linearFactor2(i / num))
PIX = PixPos(PIX, PIX_t[0][0] + (PIX_t[1][0] - PIX[1][0]) / 2, PIX_t[0][1] + (PIX_t[1][1] - PIX[1][1]) / 2)
if i / num >= 0.5:
PIX = PixResize(PIX, PIX[1][0] * linearFactor1(i / num), 0)
tcas_main(TCAS_BUF, PIX, TK + i * _FD, TK + (i + 1) * _FD, dx, dy, 0)
##### 将结果返回给tcax进行处理 #####
return (ASS_BUF, TCAS_BUF)
def tcaxPy_Main_part3(_i, _j, _n, _start, _end, _elapk, _k, _x, _y, _a, _txt, param):
ASS_BUF = [] # 保存ASS特效
TCAS_BUF = [] # 保存TCAS特效
##### 主要特效编写操作 ####
dx = _x - int((_a + GetVal(val_Spacing)) / 2 + 0.5) # 一个固定操作, 将an5的坐标转换为an7
dy = _y - int(_Fs / 2 + 0.5) # ASS特效默认采用an5坐标, TCAS特效则采用an7坐标
###
PIX_t = TextPix(Font, _txt)
PIX = TextPix(FontAll, _txt)
PIX_s = PixColorMul(PixBlur(PIX, 20), 1, 1, 1, 0.8)
PIX = CombinePixs(PIX_s, PIX_t)
BigPixAdd(param[0], PIX, dx, dy, 0)
PIX0 = PIX
# 一些时间的计算
T0 = 10 * _start - 10 * _FD + 1 * _j * _FD
T1 = T0 + 4 * _FD
T2 = 10 * _end + 5 * _FD - 2 * (_n - _j - 1) * _FD
T3 = T2 + _FD * 4
# IN 进入方式
#PIX = PIX0
img = pmgToImage(a2rgb(PIX))
img.shade(0, 45, True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255, 14 / 255, 177 / 255, 1)
tcas_keyframe(TCAS_BUF, PixBlur(PixColorMul(PIX2, 1, 1, 1, 0.2), 10), PIX2, T0, T1, dx, dy, 1, 0)
# MAIN 存在方式
#PIX = PIX0
num = int((10 * (_start + _elapk + min(_k, 80)) - T1) / _FD + 0.5) + 1
for i in range(num):
img = pmgToImage(a2rgb(PIX))
img.shade(i * 10, randint(44, 58), True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255 + (251 - 248) / 255 * i / num, 14 / 255 + (132 - 14) / 255 * i / num, 177 / 255 + (215 - 177) / 255 * i / num, 1)
tcas_main(TCAS_BUF, PIX2, T1 + i * _FD, T1 + (i + 1) * _FD, dx, dy, 1)
# OUT 消失方式
tcas_keyframe(TCAS_BUF, PIX2, PixColorMul(PixBlur(PIX2, 16), 1, 1, 1, 0), T1 + num * _FD, 10 * (_start + _elapk + min(_k, 80) * 2), dx, dy, 2, 1)
TK = 10 * (_start + _elapk)
num = int(10 * min(_k, 80) * 2 / _FD + 0.5) + 6
for i in range(num):
img = Image(IMG_revball)
img.rotate(360 * 0.8 * i / num)
PIX = PixColorMul(pmgToPix(img), 1, 1, 1, linearFactor2(i / num))
PIX = PixPos(PIX, PIX_t[0][0] + (PIX_t[1][0] - PIX[1][0]) / 2, PIX_t[0][1] + (PIX_t[1][1] - PIX[1][1]) / 2)
tcas_main(TCAS_BUF, PIX, TK + i * _FD, TK + (i + 1) * _FD, dx, dy, 0)
##### 将结果返回给tcax进行处理 #####
return (ASS_BUF, TCAS_BUF)
def tcaxPy_Main_part4(_i, _j, _n, _start, _end, _elapk, _k, _x, _y, _a, _txt, param):
ASS_BUF = [] # 保存ASS特效
TCAS_BUF = [] # 保存TCAS特效
##### 主要特效编写操作 ####
dx = _x - int((_a + GetVal(val_Spacing)) / 2 + 0.5) # 一个固定操作, 将an5的坐标转换为an7
dy = _y - int(_Fs / 2 + 0.5) # ASS特效默认采用an5坐标, TCAS特效则采用an7坐标
###
PIX_t = TextPix(Font, _txt)
PIX = TextPix(FontAll, _txt)
PIX_s = PixColorMul(PixBlur(PIX, 20), 1, 1, 1, 0.8)
PIX = CombinePixs(PIX_s, PIX_t)
BigPixAdd(param[0], PIX, dx, dy, 0)
PIX0 = PIX
# 一些时间的计算
T0 = 10 * _start - 10 * _FD + 1 * _j * _FD
T1 = T0 + 4 * _FD
T2 = 10 * _end + 5 * _FD - 2 * (_n - _j - 1) * _FD
T3 = T2 + _FD * 4
# IN 进入方式
#PIX = PIX0
img = pmgToImage(a2rgb(PIX))
img.shade(0, 45, True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255, 14 / 255, 177 / 255, 1)
tcas_keyframe(TCAS_BUF, PixBlur(PixColorMul(PIX2, 1, 1, 1, 0.2), 10), PIX2, T0, T1, dx, dy, 1, 0)
# MAIN 存在方式
#PIX = PIX0
num = int((10 * (_start + _elapk + min(_k, 80)) - T1) / _FD + 0.5) + 1
for i in range(num):
img = pmgToImage(a2rgb(PIX))
img.shade(i * 10, randint(44, 58), True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255 + (251 - 248) / 255 * i / num, 14 / 255 + (132 - 14) / 255 * i / num, 177 / 255 + (215 - 177) / 255 * i / num, 1)
tcas_main(TCAS_BUF, PIX2, T1 + i * _FD, T1 + (i + 1) * _FD, dx, dy, 1)
# OUT 消失方式
tcas_keyframe(TCAS_BUF, PIX2, PixColorMul(PixBlur(PIX2, 16), 1, 1, 1, 0), T1 + num * _FD, 10 * (_start + _elapk + min(_k, 80) * 2), dx, dy, 2, 1)
TK = 10 * (_start + _elapk)
num = int(10 * min(_k, 80) * 2 / _FD + 0.5) + 6
for i in range(num):
img = Image(IMG_star2)
img.rotate(360 * 0.8 * i / num)
PIX = PixColorMul(pmgToPix(img), 1, 1, 1, linearFactor2(i / num))
PIX = PixPos(PIX, PIX_t[0][0] + (PIX_t[1][0] - PIX[1][0]) / 2, PIX_t[0][1] + (PIX_t[1][1] - PIX[1][1]) / 2)
tcas_main(TCAS_BUF, PIX, TK + i * _FD, TK + (i + 1) * _FD, dx, dy, 0)
##### 将结果返回给tcax进行处理 #####
return (ASS_BUF, TCAS_BUF)
def tcaxPy_Main_part5(_i, _j, _n, _start, _end, _elapk, _k, _x, _y, _a, _txt, param):
ASS_BUF = [] # 保存ASS特效
TCAS_BUF = [] # 保存TCAS特效
##### 主要特效编写操作 ####
dx = _x - int((_a + GetVal(val_Spacing)) / 2 + 0.5) # 一个固定操作, 将an5的坐标转换为an7
dy = _y - int(_Fs / 2 + 0.5) # ASS特效默认采用an5坐标, TCAS特效则采用an7坐标
###
PIX_t = TextPix(Font, _txt)
PIX = TextPix(FontAll, _txt)
PIX_s = PixColorMul(PixBlur(PIX, 20), 1, 1, 1, 0.8)
PIX = CombinePixs(PIX_s, PIX_t)
BigPixAdd(param[0], PIX, dx, dy, 0)
PIX0 = PIX
# 一些时间的计算
T0 = 10 * _start - 10 * _FD + 1 * _j * _FD
T1 = T0 + 4 * _FD
T2 = 10 * _end + 5 * _FD - 2 * (_n - _j - 1) * _FD
T3 = T2 + _FD * 4
# IN 进入方式
#PIX = PIX0
img = pmgToImage(a2rgb(PIX))
img.shade(0, 45, True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255, 14 / 255, 177 / 255, 1)
tcas_keyframe(TCAS_BUF, PixBlur(PixColorMul(PIX2, 1, 1, 1, 0.2), 10), PIX2, T0, T1, dx, dy, 1, 0)
# MAIN 存在方式
#PIX = PIX0
num = int((10 * (_start + _elapk + min(_k, 80)) - T1) / _FD + 0.5) + 1
for i in range(num):
img = pmgToImage(a2rgb(PIX))
img.shade(i * 10, randint(44, 58), True)
PIX1 = PixPos(pmgToPix(img), PIX[0][0], PIX[0][1])
PIX2 = PixColorMul(PixMask(PIX1, PIX), 248 / 255 + (251 - 248) / 255 * i / num, 14 / 255 + (132 - 14) / 255 * i / num, 177 / 255 + (215 - 177) / 255 * i / num, 1)
tcas_main(TCAS_BUF, PIX2, T1 + i * _FD, T1 + (i + 1) * _FD, dx, dy, 1)
# OUT 消失方式
tcas_keyframe(TCAS_BUF, PIX2, PixColorMul(PixBlur(PIX2, 16), 1, 1, 1, 0), T1 + num * _FD, 10 * (_start + _elapk + min(_k, 80) * 2), dx, dy, 2, 1)
TK = 10 * (_start + _elapk)
num = int(10 * min(_k, 80) / _FD + 0.5) + 6
for i in range(num):
img = Image(IMG_flare)
img.rotate(360 * 0.8 * i / num)
PIX = pmgToPix(img)#PixColorMul(pmgToPix(img), 1, 1, 1, 0.6 + 0.4 * (num - i - 1) / num)
PIX = PixPos(PIX, PIX_t[0][0] + (PIX_t[1][0] - PIX[1][0]) / 2, PIX_t[0][1] + (PIX_t[1][1] - PIX[1][1]) / 2)
if i / num >= 0.5:
PIX = PixResize(PIX, PIX[1][0] * linearFactor1(i / num), 0)
tcas_main(TCAS_BUF, PIX, TK + i * _FD, TK + (i + 1) * _FD, dx, dy, 0)
##### 将结果返回给tcax进行处理 #####
return (ASS_BUF, TCAS_BUF)
# Utility
def sqrFactor(x):
return -4 * (x - 0.5) * (x + 0.5)
def linearFactor1(x):
if x < 0.5:
return 1
else:
return 1 - 1 * (x - 0.5)
def linearFactor2(x):
if x < 0.5:
return 1
else:
return 1 - 2 * (x - 0.5)
def r2a(PIX):
buf = []
width = PIX[1][0]
height = PIX[1][1]
for h in range(height):
for w in range(width):
index = 4 * (h * width + w)
# if PIX[2][index] != PIX[2][index + 1] or PIX[2][index] != PIX[2][index + 2]:
# print('note1')
# if PIX[2][index + 3] != 255:
# print('note2')
buf.append(0)
buf.append(0)
buf.append(0)
buf.append(PIX[2][index + 0])
return (PIX[0], PIX[1], tuple(buf))
def invertA(PIX):
buf = list(PIX[2])
width = PIX[1][0]
height = PIX[1][1]
for h in range(height):
for w in range(width):
index = 4 * (h * width + w) + 3
buf[index] = 255 - buf[index]
return (PIX[0], PIX[1], tuple(buf))
def addA(PIX, step):
buf = list(PIX[2])
width = PIX[1][0]
height = PIX[1][1]
for h in range(height):
for w in range(width):
index = 4 * (h * width + w) + 3
buf[index] += int(step + 0.5)
if buf[index] < 0:
buf[index] = 0
if buf[index] > 255:
buf[index] = 255
return (PIX[0], PIX[1], tuple(buf))
def a2rgb(PIX):
buf = list(PIX[2])
width = PIX[1][0]
height = PIX[1][1]
for h in range(height):
for w in range(width):
index = 4 * (h * width + w)
buf[index] = buf[index + 3]
buf[index + 1] = buf[index + 3]
buf[index + 2] = buf[index + 3]
buf[index + 3] = 255
return (PIX[0], PIX[1], tuple(buf))
def switchRB(PIX):
buf = list(PIX[2])
width = PIX[1][0]
height = PIX[1][1]
for h in range(height):
for w in range(width):
index = 4 * (h * width + w)
temp = buf[index]
buf[index] = buf[index + 2]
buf[index + 2] = temp
return (PIX[0], PIX[1], tuple(buf))