123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182 |
- # THIS FILE IS A PART OF VCStudio
- # PYTHON 3
- # This is collection of simple geometric math operations that I gonna use trough
- # out the UI of the VCStudio. Stuff like collision detections, overlap detections
- # and other verious little tiny, but overused functions.
- def line_overlap(line1, line2):
-
- # This function will check if 2 one dimenshional line overlap.
-
- overlap = False
-
- # Let's sort them just incase.
-
- line1.sort()
- line2.sort()
-
-
- # Well. I guess this is the least ambiguos way of doing so. In my opinion
-
- if line1[0] > line2[0] and line1[0] < line2[1]:
- overlap = True
- elif line1[1] > line2[0] and line1[1] < line2[1]:
- overlap = True
- elif line2[0] > line1[0] and line2[0] < line1[1]:
- overlap = True
- elif line2[1] > line1[0] and line2[1] < line1[1]:
- overlap = True
-
-
- return overlap
- def rectangle_overlap(rectangle1, rectangle2):
-
- # This function will see if 2 rectangle overlap. It returns either True or
- # False.
-
- overlap = False
-
- # Now since it's going to be easier for me to use the same type of coordi-
- # nates as in cairo to draw rectangles. I need to purify them first. Meaning
- # convert the width and height into real points on a plane.
-
- r1x, r1y, r1w, r1h = rectangle1
- r2x, r2y, r2w, r2h = rectangle2
-
-
- r1w += r1x
- r1h += r1y
- r2w += r2x
- r2h += r2y
-
-
- # Now we going to simply compare if overlapping lines of x coordinates and if
- # yes. Coordinates of y coordinates.
-
- if line_overlap([r1x, r1w],[r2x, r2w]) and line_overlap([r1y, r1h],[r2y, r2h]):
- overlap = True
-
-
- return overlap
-
- def rectangle_surround( win, name, target_pos, target_size, now_pos, now_size ):
-
- # This function does surrounding operations. For example you have N amount
- # of nodes selected. And you want to draw a rectangle arround all of them.
- # for this you will have to find out the smallest of all values and biggest
- # and so this is what this funtion is for.
-
- now_pos = now_pos.copy()
- now_size = now_size.copy()
-
- # We are going to start by refrashing the current position of the rectangle
- # for this we need to know whether at this frame there was a refresh already.
-
- if win.current["frame"] != win.surround["frame"]:# and win.current["frame"] % 2 == 0:
- win.surround["frame"] = win.current["frame"]
- win.surround["rects"] = []
-
- # Now let's see if a given name is in the data of those refrashed.
-
- if name not in win.surround["rects"]:
- target_pos[0] = now_pos[0]
- target_pos[1] = now_pos[1]
- target_size[0] = now_size[0]
- target_size[1] = now_size[1]
-
- win.surround["rects"].append(name)
-
- # Now you maybe wondering why I would not just make the whole targer_size
- # for example = [0,0]. And it because lists are linked from some other
- # data. And I don't create new lists. But change the link lists.
-
-
-
- # Now let's do the checking and overwritting of all the rest of the data.
-
- if now_pos[0] < target_pos[0]:
- target_size[0] += target_pos[0] - now_pos[0]
- target_pos[0] = now_pos[0]
-
- if now_pos[1] < target_pos[1]:
- target_size[1] += target_pos[1] - now_pos[1]
- target_pos[1] = now_pos[1]
-
- # Now the size. It's a bit trickier. But not too hard. We need to remember
- # the the ultimate bottom, right point is a combintation of position and
- # size.
-
-
- if now_pos[0] + now_size[0] > target_pos[0] + target_size[0]:
- target_size[0] = now_size[0] + now_pos[0] - target_pos[0]
-
- if now_pos[1] + now_size[1] > target_pos[1] + target_size[1]:
- target_size[1] = now_size[1] + now_pos[1] - target_pos[1]
-
- def filter_arrows(win):
-
- # This function filters the arrow connections. I copied it from the
- # Blender_Organizer's code. at py_data/modules/story_editor.py
-
- # Doing some clever magic I forgot the purpose of
- for num, arrow in enumerate(win.story["arrows"]):
- for num2, arrow2 in enumerate(win.story["arrows"]):
- if arrow[0] == arrow2[0] or arrow[1] == arrow2[1]:
- win.story["arrows"][num] = arrow2
- # Removing doubles
- tmp = []
- for i in win.story["arrows"]:
- if i not in tmp:
- tmp.append(i)
- win.story["arrows"] = tmp
-
- def timestring(tleft):
-
- # This crazy function will convert the microsecond into something a bit
- # more usefull. Like 03:20:90.06 Kind a thing.
-
- tleftX = tleft
-
- tleft = int(tleftX)
-
- addend = tleftX - tleft
-
-
- valt = str(tleft)
-
- if tleft > 60 :
- le = tleft
- tleft = int(tleft / 60)
- le = le - int(tleft * 60)
-
- stleft = "0"*(2-len(str(tleft)))+str(tleft)
- sle = "0"*(2-len(str(le)))+str(le)
-
- valt = stleft+":"+ sle
-
- if tleft > 60 :
- lele = le
- le = tleft
- tleft = int(tleft / 60)
- le = le - int(tleft * 60)
- lele = (lele - le)
- if lele < 0:
- lele = int(lele * -1)
-
- stleft = "0"*(2-len(str(tleft)))+str(tleft)
- sle = "0"*(2-len(str(le)))+str(le)
- slele = "0"*(2-len(str(lele)))+str(lele)
-
- valt = stleft+":"+ sle + ":" + slele
-
- if tleft > 24 :
- le = tleft
- tleft = int(tleft / 24)
- le = le - int(tleft * 24)
- valt = str(tleft)+" DAYS AND "+ str(le) + " HRS"
- return valt + "." + str(int(addend*100))
|