Experimental shear correction

This commit is contained in:
Star Brilliant 2014-04-21 23:48:53 +08:00
parent 9234349026
commit 9e723bb12e

View File

@ -288,10 +288,10 @@ def WriteCommentBilibiliPositioned(f, c, width, height, styleid):
styles.append('\\pos(%s, %s)' % (from_x, from_y))
else:
styles.append('\\move(%s, %s, %s, %s, %s, %s)' % (from_x, from_y, to_x, to_y, delay, delay+duration))
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (from_x-ZoomFactor[1])/(width-ZoomFactor[1]*2)))
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (from_x-ZoomFactor[1])/(width-ZoomFactor[1]*2), (from_y-ZoomFactor[2])/(height-ZoomFactor[2]*2)))
if (from_x, from_y) != (to_x, to_y):
styles.append('\\t(%s, %s, ' % (delay, delay+duration))
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2)))
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2), (to_y-ZoomFactor[2])/(height-ZoomFactor[2]*2)))
styles.append(')')
if fontface:
styles.append('\\fn%s' % ASSEscape(fontface))
@ -336,7 +336,8 @@ def WriteCommentAcfunPositioned(f, c, width, height, styleid):
styles.append('\\fscy%s' % scale_y)
if rotate_z is not None and rotate_y is not None:
assert x is not None
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (x-ZoomFactor[1])/(width-ZoomFactor[1]*2)))
assert y is not None
styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(rotate_y, rotate_z, (x-ZoomFactor[1])/(width-ZoomFactor[1]*2), (y-ZoomFactor[2])/(height-ZoomFactor[2]*2)))
if color is not None:
styles.append('\\c&H%02X%02X%02X&' % (color & 0xff, (color >> 8) & 0xff, (color >> 16) & 0xff))
if color == 0x000000:
@ -416,9 +417,9 @@ def WriteCommentAcfunPositioned(f, c, width, height, styleid):
if ('x' in action) or ('y' in action):
transform_styles = GetTransformStyles(None, None, from_scale_x, from_scale_y, None, None, from_color, from_alpha)
transform_styles.append('\\move(%s, %s, %s, %s)' % (from_x, from_y, to_x, to_y))
action_styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(to_rotate_y, to_rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2)))
action_styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(to_rotate_y, to_rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2), (to_y-ZoomFactor[2])/(width-ZoomFactor[2]*2)))
elif ('d' in action) or ('e' in action):
action_styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(to_rotate_y, to_rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2)))
action_styles.append('\\frx%s\\fry%s\\frz%s\\fax%s\\fay%s' % ConvertFlashRotation(to_rotate_y, to_rotate_z, (to_x-ZoomFactor[1])/(width-ZoomFactor[1]*2), (to_y-ZoomFactor[2])/(width-ZoomFactor[2]*2)))
else:
transform_styles = GetTransformStyles(from_x, from_y, from_scale_x, from_scale_y, from_rotate_z, from_rotate_y, from_color, from_alpha)
if action_styles:
@ -500,10 +501,12 @@ def GetZoomFactor(SourceSize, TargetSize):
# Calculation is based on https://github.com/jabbany/CommentCoreLibrary/issues/5#issuecomment-40087282
# Input: X relative horizonal coordinate: 0 for left edge, 1 for right edge.
# Y relative vertical coordinate: 0 for top edge, 1 for bottom edge.
# FOV = 1.0/math.tan(100*math.pi/360.0)
# Result: (rotX, rotY, rotZ, shearX, shearY)
def ConvertFlashRotation(rotY, rotZ, X, FOV=math.tan(2*math.pi/9.0)):
X = 2*X-1;
def ConvertFlashRotation(rotY, rotZ, X, Y, FOV=math.tan(2*math.pi/9.0)):
X = 2*X-1
Y = 2*Y-1
rotY = 180-((180+rotY)%360) # Positive value means clockwise in Flash
rotZ = 180-((180+rotZ)%360)
if 0 <= rotY <= 180:
@ -530,7 +533,7 @@ def ConvertFlashRotation(rotY, rotZ, X, FOV=math.tan(2*math.pi/9.0)):
except ValueError:
logging.error('Clipped rotation angle: (rotY=%s, rotZ=%s, X=%s), it is a bug!' % (rotY, rotZ, X))
theta = -math.acos(costheta)*180/math.pi
return (round(theta*math.sin(rotZ*math.pi/180.0)), round(theta*math.cos(rotZ*math.pi/180.0)), round(rotZ), 0, 0)
return (round(theta*math.sin(rotZ*math.pi/180.0)), round(theta*math.cos(rotZ*math.pi/180.0)), round(rotZ), 0, round(-0.75*Y*math.sin(theta*math.pi/180.0), 3))
def ProcessComments(comments, f, width, height, bottomReserved, fontface, fontsize, alpha, lifetime, reduced, progress_callback):