Lucky for me the line segment can never start and end inside the triangle, it will always intersect. Below is my code in python. It is based on Kevin's idea that you just evaluate each line segment coordinates one at a time and see if they intersect. If it is a line and a triangle, run the code 3 times. Anyone have issue?(implemented in python):

```
#Check to see if two lines intersect
# return a 1 if they intersect
# return a 0 if the do not intersect
def line_intersection_test( p0_x, p0_y, p1_x, p1_y, p2_x, p2_y, p3_x,p3_y):
s1_x = float(p1_x - p0_x)
s1_y = float(p1_y - p0_y)
s2_x = float(p3_x - p2_x)
s2_y = float(p3_y - p2_y)
outcome = 0
s = float (-s1_y * (p0_x - p2_x) + s1_x * (p0_y - p2_y)) / (-s2_x * s1_y + s1_x * s2_y)
t = float ( s2_x * (p0_y - p2_y) - s2_y * (p0_x - p2_x)) / (-s2_x * s1_y + s1_x * s2_y)
if (s >= 0 and s <= 1 and t >= 0 and t <= 1):
outcome = 1
return outcome
#basically feed line segment and the three lines that form the triangle separately to line_intersect_test to see if they intersect
def triangle_intersection_test(vecX1, vecY1, vecX2, vecY2, triX1, triY1, triX2, triY2,triX3, triY3):
side_1_test = line_intersection_test(vecX1, vecY1, vecX2, vecY2, triX1, triY1, triX2, triY2)
side_2_test = line_intersection_test(vecX1, vecY1, vecX2, vecY2, triX2, triY2, triX3, triY3)
side_3_test = line_intersection_test(vecX1, vecY1, vecX2, vecY2, triX1, triY1, triX3, triY3)
result = side_1_test + side_2_test + side_3_test
if result > 0:
outcome = "motion detected"
else:
outcome = "motion not detected"
return outcome
```

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