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3 Commits
979cbe7922
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master
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f89545e995 | ||
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920a530385 | ||
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cfc13d2ba7 |
@@ -161,10 +161,17 @@ int main(int argc, char *argv[])
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if(mode == MODE_HELP) {
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fprintf(stderr, "Usage: %s <help|evs|summary|trace_ids> [arguments]\n", argv[0]);
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fprintf(stderr, "%s help display this page\n", argv[0]);
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fprintf(stderr, "%s evs <n> <q1> <q2> <q3> <treal> <timag> enumerate group and output unique (log) eigenvalue triples\n", argv[0]);
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fprintf(stderr, "%s summary <n> <q1> <q2> <q3> <treal> <timag> only output max slope etc.\n", argv[0]);
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fprintf(stderr, "%s help display this page\n", argv[0]);
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fprintf(stderr, "%s evs <n> <q1> <q2> <q3> <treal> <timag> enumerate group and output unique (log) eigenvalue triples\n", argv[0]);
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fprintf(stderr, "%s summary <n> <q1> <q2> <q3> <treal> <timag> only output max slope etc.\n", argv[0]);
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fprintf(stderr, "%s trace_ids <n> <q1> <q2> <q3> <treal> <timag> list of ids of unique traces\n", argv[0]);
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fprintf(stderr, "\n");
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fprintf(stderr, "This program computes the traces and inverse traces of the first n elements of a SL(3,C) representation of the\n");
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fprintf(stderr, "triangle reflection group with corner orders (5,5,5). The representation is given by the parameters q1,q2,q3,\n");
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fprintf(stderr, "treal, and timag. q1,q2,q3 can each be 1 or 2 and determine the connected component. (1,1,1) is Hitchin and\n");
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fprintf(stderr, "(2,2,2) is Barbot. treal and timag are the components of the complex parameter and have to be given as rational\n");
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fprintf(stderr, "numbers. If the environment variable IDLIST is set to a filename, a list of elements can be read from this file.\n");
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fprintf(stderr, "Such a list can be precomputed with the \"trace_ids\" subcommand and speeds up the computation considerably.\n");
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return 0;
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}
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@@ -3,65 +3,43 @@
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import sys
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import math
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def sharpen(x):
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alpha = 1
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y = abs(2*x-1)**alpha # between 0 and 1
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if x > 0.499 and x < 0.501:
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return 0.5
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elif x > 0.5:
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return (y+1)/2
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else:
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return (1-y)/2
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f = open(sys.argv[1])
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lines = [x.split() for x in f]
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f.close()
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res1 = int(sys.argv[2]) # 400 pixel per unit
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res2 = int(sys.argv[3]) # 50 pixel in picture (acutally one quadrant)
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res = int(sys.argv[2]) # pixel per unit
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data = {(round(float(l[0])*res1), round(float(l[1])*res1)) : float(l[5]) for l in lines}
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data = {(round(float(l[0])*res), round(float(l[1])*res)) : float(l[5]) for l in lines}
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data[(0,0)] = 2.0
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xmin = min([p[0] for p in data.keys()])
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xmax = max([p[0] for p in data.keys()])
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ymin = min([p[1] for p in data.keys()])
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ymax = max([p[1] for p in data.keys()])
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yrange=max([-ymin,ymax])
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print("P3")
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print("1000 1000")
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print("{dx:d} {dy:d}".format(dx=xmax-xmin+1, dy=2*yrange+1))
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print("255")
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for i in range (-500,500):
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for j in range(-500,500):
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x = j/500*res2
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y = i/500*res2
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for i in range(-yrange,yrange+1):
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for j in range(xmin,xmax+1):
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x = j
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y = i if i >= ymin and i <= ymax else -i
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if y < 0:
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y = -y
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x0 = math.floor(x)
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y0 = math.floor(y)
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x1 = math.ceil(x)
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y1 = math.ceil(y)
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tx = sharpen(x-x0)
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ty = sharpen(y-y0)
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if not (x0,y0) in data or not (x0,y1) in data or not (x1,y0) in data or not (x1,y1) in data:
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if not (x,y) in data:
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value = 0
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else:
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value = 0.0
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value += data[(x0,y0)]*(1-tx)*(1-ty)
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value += data[(x0,y1)]*(1-tx)*ty
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value += data[(x1,y0)]*tx*(1-ty)
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value += data[(x1,y1)]*tx*ty
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value -= 1
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value = data[(x,y)]-1
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value = 0 if value < 0 else 1 if value > 1 else value
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r = round(255*math.sqrt(value))
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r = round(255*value**0.5)
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g = round(255*(value)**3)
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b = round(255*math.sin(2*math.pi*(value)))
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b = round(255*(math.sin(2*math.pi*value)))
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r = 0 if r < 0 else 255 if r > 255 else r
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g = 0 if g < 0 else 255 if g > 255 else g
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b = 0 if b < 0 else 255 if b > 255 else b
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print("%d %d %d" % (r,g,b))
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#print(data)
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10
qext.c
10
qext.c
@@ -37,16 +37,6 @@ static void qext_init_type(struct qext_type *type)
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}
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}
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struct qext_type *qext_newtype(int rank, const int *coeffs)
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{
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struct qext_type *type = malloc(sizeof(struct qext_type));
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type->rank = rank;
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type->integer_coeffs = coeffs;
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qext_init_type(type);
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return type;
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}
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void qext_init(qext_number x, struct qext_type *type)
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{
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if(type->coeffs == NULL) // uninitialized default type
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1
qext.h
1
qext.h
@@ -20,7 +20,6 @@ extern struct qext_type *QT_TRIVIAL;
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extern struct qext_type *QT_SQRT5;
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extern struct qext_type *QT_GAUSS_SQRT5;
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struct qext_type *qext_newtype(int rank, const int *coeffs);
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void qext_init(qext_number x, struct qext_type *type);
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void qext_clear(qext_number x);
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void qext_set(qext_number x, qext_number y);
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