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""" | |
The function zetazero(n) computes the n-th nontrivial zero of zeta(s). | |
The general strategy is to locate a block of Gram intervals B where we | |
know exactly the number of zeros contained and which of those zeros | |
is that which we search. | |
If n <= 400 000 000 we know exactly the Rosser exceptions, contained | |
in a list in this file. Hence for n<=400 000 000 we simply | |
look at these list of exceptions. If our zero is implicated in one of | |
these exceptions we have our block B. In other case we simply locate | |
the good Rosser block containing our zero. | |
For n > 400 000 000 we apply the method of Turing, as complemented by | |
Lehman, Brent and Trudgian to find a suitable B. | |
""" | |
from .functions import defun, defun_wrapped | |
def find_rosser_block_zero(ctx, n): | |
"""for n<400 000 000 determines a block were one find our zero""" | |
for k in range(len(_ROSSER_EXCEPTIONS)//2): | |
a=_ROSSER_EXCEPTIONS[2*k][0] | |
b=_ROSSER_EXCEPTIONS[2*k][1] | |
if ((a<= n-2) and (n-1 <= b)): | |
t0 = ctx.grampoint(a) | |
t1 = ctx.grampoint(b) | |
v0 = ctx._fp.siegelz(t0) | |
v1 = ctx._fp.siegelz(t1) | |
my_zero_number = n-a-1 | |
zero_number_block = b-a | |
pattern = _ROSSER_EXCEPTIONS[2*k+1] | |
return (my_zero_number, [a,b], [t0,t1], [v0,v1]) | |
k = n-2 | |
t,v,b = compute_triple_tvb(ctx, k) | |
T = [t] | |
V = [v] | |
while b < 0: | |
k -= 1 | |
t,v,b = compute_triple_tvb(ctx, k) | |
T.insert(0,t) | |
V.insert(0,v) | |
my_zero_number = n-k-1 | |
m = n-1 | |
t,v,b = compute_triple_tvb(ctx, m) | |
T.append(t) | |
V.append(v) | |
while b < 0: | |
m += 1 | |
t,v,b = compute_triple_tvb(ctx, m) | |
T.append(t) | |
V.append(v) | |
return (my_zero_number, [k,m], T, V) | |
def wpzeros(t): | |
"""Precision needed to compute higher zeros""" | |
wp = 53 | |
if t > 3*10**8: | |
wp = 63 | |
if t > 10**11: | |
wp = 70 | |
if t > 10**14: | |
wp = 83 | |
return wp | |
def separate_zeros_in_block(ctx, zero_number_block, T, V, limitloop=None, | |
fp_tolerance=None): | |
"""Separate the zeros contained in the block T, limitloop | |
determines how long one must search""" | |
if limitloop is None: | |
limitloop = ctx.inf | |
loopnumber = 0 | |
variations = count_variations(V) | |
while ((variations < zero_number_block) and (loopnumber <limitloop)): | |
a = T[0] | |
v = V[0] | |
newT = [a] | |
newV = [v] | |
variations = 0 | |
for n in range(1,len(T)): | |
b2 = T[n] | |
u = V[n] | |
if (u*v>0): | |
alpha = ctx.sqrt(u/v) | |
b= (alpha*a+b2)/(alpha+1) | |
else: | |
b = (a+b2)/2 | |
if fp_tolerance < 10: | |
w = ctx._fp.siegelz(b) | |
if abs(w)<fp_tolerance: | |
w = ctx.siegelz(b) | |
else: | |
w=ctx.siegelz(b) | |
if v*w<0: | |
variations += 1 | |
newT.append(b) | |
newV.append(w) | |
u = V[n] | |
if u*w <0: | |
variations += 1 | |
newT.append(b2) | |
newV.append(u) | |
a = b2 | |
v = u | |
T = newT | |
V = newV | |
loopnumber +=1 | |
if (limitloop>ITERATION_LIMIT)and(loopnumber>2)and(variations+2==zero_number_block): | |
dtMax=0 | |
dtSec=0 | |
kMax = 0 | |
for k1 in range(1,len(T)): | |
dt = T[k1]-T[k1-1] | |
if dt > dtMax: | |
kMax=k1 | |
dtSec = dtMax | |
dtMax = dt | |
elif (dt<dtMax) and(dt >dtSec): | |
dtSec = dt | |
if dtMax>3*dtSec: | |
f = lambda x: ctx.rs_z(x,derivative=1) | |
t0=T[kMax-1] | |
t1 = T[kMax] | |
t=ctx.findroot(f, (t0,t1), solver ='illinois',verify=False, verbose=False) | |
v = ctx.siegelz(t) | |
if (t0<t) and (t<t1) and (v*V[kMax]<0): | |
T.insert(kMax,t) | |
V.insert(kMax,v) | |
variations = count_variations(V) | |
if variations == zero_number_block: | |
separated = True | |
else: | |
separated = False | |
return (T,V, separated) | |
def separate_my_zero(ctx, my_zero_number, zero_number_block, T, V, prec): | |
"""If we know which zero of this block is mine, | |
the function separates the zero""" | |
variations = 0 | |
v0 = V[0] | |
for k in range(1,len(V)): | |
v1 = V[k] | |
if v0*v1 < 0: | |
variations +=1 | |
if variations == my_zero_number: | |
k0 = k | |
leftv = v0 | |
rightv = v1 | |
v0 = v1 | |
t1 = T[k0] | |
t0 = T[k0-1] | |
ctx.prec = prec | |
wpz = wpzeros(my_zero_number*ctx.log(my_zero_number)) | |
guard = 4*ctx.mag(my_zero_number) | |
precs = [ctx.prec+4] | |
index=0 | |
while precs[0] > 2*wpz: | |
index +=1 | |
precs = [precs[0] // 2 +3+2*index] + precs | |
ctx.prec = precs[0] + guard | |
r = ctx.findroot(lambda x:ctx.siegelz(x), (t0,t1), solver ='illinois', verbose=False) | |
#print "first step at", ctx.dps, "digits" | |
z=ctx.mpc(0.5,r) | |
for prec in precs[1:]: | |
ctx.prec = prec + guard | |
#print "refining to", ctx.dps, "digits" | |
znew = z - ctx.zeta(z) / ctx.zeta(z, derivative=1) | |
#print "difference", ctx.nstr(abs(z-znew)) | |
z=ctx.mpc(0.5,ctx.im(znew)) | |
return ctx.im(z) | |
def sure_number_block(ctx, n): | |
"""The number of good Rosser blocks needed to apply | |
Turing method | |
References: | |
R. P. Brent, On the Zeros of the Riemann Zeta Function | |
in the Critical Strip, Math. Comp. 33 (1979) 1361--1372 | |
T. Trudgian, Improvements to Turing Method, Math. Comp.""" | |
if n < 9*10**5: | |
return(2) | |
g = ctx.grampoint(n-100) | |
lg = ctx._fp.ln(g) | |
brent = 0.0061 * lg**2 +0.08*lg | |
trudgian = 0.0031 * lg**2 +0.11*lg | |
N = ctx.ceil(min(brent,trudgian)) | |
N = int(N) | |
return N | |
def compute_triple_tvb(ctx, n): | |
t = ctx.grampoint(n) | |
v = ctx._fp.siegelz(t) | |
if ctx.mag(abs(v))<ctx.mag(t)-45: | |
v = ctx.siegelz(t) | |
b = v*(-1)**n | |
return t,v,b | |
ITERATION_LIMIT = 4 | |
def search_supergood_block(ctx, n, fp_tolerance): | |
"""To use for n>400 000 000""" | |
sb = sure_number_block(ctx, n) | |
number_goodblocks = 0 | |
m2 = n-1 | |
t, v, b = compute_triple_tvb(ctx, m2) | |
Tf = [t] | |
Vf = [v] | |
while b < 0: | |
m2 += 1 | |
t,v,b = compute_triple_tvb(ctx, m2) | |
Tf.append(t) | |
Vf.append(v) | |
goodpoints = [m2] | |
T = [t] | |
V = [v] | |
while number_goodblocks < 2*sb: | |
m2 += 1 | |
t, v, b = compute_triple_tvb(ctx, m2) | |
T.append(t) | |
V.append(v) | |
while b < 0: | |
m2 += 1 | |
t,v,b = compute_triple_tvb(ctx, m2) | |
T.append(t) | |
V.append(v) | |
goodpoints.append(m2) | |
zn = len(T)-1 | |
A, B, separated =\ | |
separate_zeros_in_block(ctx, zn, T, V, limitloop=ITERATION_LIMIT, | |
fp_tolerance=fp_tolerance) | |
Tf.pop() | |
Tf.extend(A) | |
Vf.pop() | |
Vf.extend(B) | |
if separated: | |
number_goodblocks += 1 | |
else: | |
number_goodblocks = 0 | |
T = [t] | |
V = [v] | |
# Now the same procedure to the left | |
number_goodblocks = 0 | |
m2 = n-2 | |
t, v, b = compute_triple_tvb(ctx, m2) | |
Tf.insert(0,t) | |
Vf.insert(0,v) | |
while b < 0: | |
m2 -= 1 | |
t,v,b = compute_triple_tvb(ctx, m2) | |
Tf.insert(0,t) | |
Vf.insert(0,v) | |
goodpoints.insert(0,m2) | |
T = [t] | |
V = [v] | |
while number_goodblocks < 2*sb: | |
m2 -= 1 | |
t, v, b = compute_triple_tvb(ctx, m2) | |
T.insert(0,t) | |
V.insert(0,v) | |
while b < 0: | |
m2 -= 1 | |
t,v,b = compute_triple_tvb(ctx, m2) | |
T.insert(0,t) | |
V.insert(0,v) | |
goodpoints.insert(0,m2) | |
zn = len(T)-1 | |
A, B, separated =\ | |
separate_zeros_in_block(ctx, zn, T, V, limitloop=ITERATION_LIMIT, fp_tolerance=fp_tolerance) | |
A.pop() | |
Tf = A+Tf | |
B.pop() | |
Vf = B+Vf | |
if separated: | |
number_goodblocks += 1 | |
else: | |
number_goodblocks = 0 | |
T = [t] | |
V = [v] | |
r = goodpoints[2*sb] | |
lg = len(goodpoints) | |
s = goodpoints[lg-2*sb-1] | |
tr, vr, br = compute_triple_tvb(ctx, r) | |
ar = Tf.index(tr) | |
ts, vs, bs = compute_triple_tvb(ctx, s) | |
as1 = Tf.index(ts) | |
T = Tf[ar:as1+1] | |
V = Vf[ar:as1+1] | |
zn = s-r | |
A, B, separated =\ | |
separate_zeros_in_block(ctx, zn,T,V,limitloop=ITERATION_LIMIT, fp_tolerance=fp_tolerance) | |
if separated: | |
return (n-r-1,[r,s],A,B) | |
q = goodpoints[sb] | |
lg = len(goodpoints) | |
t = goodpoints[lg-sb-1] | |
tq, vq, bq = compute_triple_tvb(ctx, q) | |
aq = Tf.index(tq) | |
tt, vt, bt = compute_triple_tvb(ctx, t) | |
at = Tf.index(tt) | |
T = Tf[aq:at+1] | |
V = Vf[aq:at+1] | |
return (n-q-1,[q,t],T,V) | |
def count_variations(V): | |
count = 0 | |
vold = V[0] | |
for n in range(1, len(V)): | |
vnew = V[n] | |
if vold*vnew < 0: | |
count +=1 | |
vold = vnew | |
return count | |
def pattern_construct(ctx, block, T, V): | |
pattern = '(' | |
a = block[0] | |
b = block[1] | |
t0,v0,b0 = compute_triple_tvb(ctx, a) | |
k = 0 | |
k0 = 0 | |
for n in range(a+1,b+1): | |
t1,v1,b1 = compute_triple_tvb(ctx, n) | |
lgT =len(T) | |
while (k < lgT) and (T[k] <= t1): | |
k += 1 | |
L = V[k0:k] | |
L.append(v1) | |
L.insert(0,v0) | |
count = count_variations(L) | |
pattern = pattern + ("%s" % count) | |
if b1 > 0: | |
pattern = pattern + ')(' | |
k0 = k | |
t0,v0,b0 = t1,v1,b1 | |
pattern = pattern[:-1] | |
return pattern | |
def zetazero(ctx, n, info=False, round=True): | |
r""" | |
Computes the `n`-th nontrivial zero of `\zeta(s)` on the critical line, | |
i.e. returns an approximation of the `n`-th largest complex number | |
`s = \frac{1}{2} + ti` for which `\zeta(s) = 0`. Equivalently, the | |
imaginary part `t` is a zero of the Z-function (:func:`~mpmath.siegelz`). | |
**Examples** | |
The first few zeros:: | |
>>> from mpmath import * | |
>>> mp.dps = 25; mp.pretty = True | |
>>> zetazero(1) | |
(0.5 + 14.13472514173469379045725j) | |
>>> zetazero(2) | |
(0.5 + 21.02203963877155499262848j) | |
>>> zetazero(20) | |
(0.5 + 77.14484006887480537268266j) | |
Verifying that the values are zeros:: | |
>>> for n in range(1,5): | |
... s = zetazero(n) | |
... chop(zeta(s)), chop(siegelz(s.imag)) | |
... | |
(0.0, 0.0) | |
(0.0, 0.0) | |
(0.0, 0.0) | |
(0.0, 0.0) | |
Negative indices give the conjugate zeros (`n = 0` is undefined):: | |
>>> zetazero(-1) | |
(0.5 - 14.13472514173469379045725j) | |
:func:`~mpmath.zetazero` supports arbitrarily large `n` and arbitrary precision:: | |
>>> mp.dps = 15 | |
>>> zetazero(1234567) | |
(0.5 + 727690.906948208j) | |
>>> mp.dps = 50 | |
>>> zetazero(1234567) | |
(0.5 + 727690.9069482075392389420041147142092708393819935j) | |
>>> chop(zeta(_)/_) | |
0.0 | |
with *info=True*, :func:`~mpmath.zetazero` gives additional information:: | |
>>> mp.dps = 15 | |
>>> zetazero(542964976,info=True) | |
((0.5 + 209039046.578535j), [542964969, 542964978], 6, '(013111110)') | |
This means that the zero is between Gram points 542964969 and 542964978; | |
it is the 6-th zero between them. Finally (01311110) is the pattern | |
of zeros in this interval. The numbers indicate the number of zeros | |
in each Gram interval (Rosser blocks between parenthesis). In this case | |
there is only one Rosser block of length nine. | |
""" | |
n = int(n) | |
if n < 0: | |
return ctx.zetazero(-n).conjugate() | |
if n == 0: | |
raise ValueError("n must be nonzero") | |
wpinitial = ctx.prec | |
try: | |
wpz, fp_tolerance = comp_fp_tolerance(ctx, n) | |
ctx.prec = wpz | |
if n < 400000000: | |
my_zero_number, block, T, V =\ | |
find_rosser_block_zero(ctx, n) | |
else: | |
my_zero_number, block, T, V =\ | |
search_supergood_block(ctx, n, fp_tolerance) | |
zero_number_block = block[1]-block[0] | |
T, V, separated = separate_zeros_in_block(ctx, zero_number_block, T, V, | |
limitloop=ctx.inf, fp_tolerance=fp_tolerance) | |
if info: | |
pattern = pattern_construct(ctx,block,T,V) | |
prec = max(wpinitial, wpz) | |
t = separate_my_zero(ctx, my_zero_number, zero_number_block,T,V,prec) | |
v = ctx.mpc(0.5,t) | |
finally: | |
ctx.prec = wpinitial | |
if round: | |
v =+v | |
if info: | |
return (v,block,my_zero_number,pattern) | |
else: | |
return v | |
def gram_index(ctx, t): | |
if t > 10**13: | |
wp = 3*ctx.log(t, 10) | |
else: | |
wp = 0 | |
prec = ctx.prec | |
try: | |
ctx.prec += wp | |
h = int(ctx.siegeltheta(t)/ctx.pi) | |
finally: | |
ctx.prec = prec | |
return(h) | |
def count_to(ctx, t, T, V): | |
count = 0 | |
vold = V[0] | |
told = T[0] | |
tnew = T[1] | |
k = 1 | |
while tnew < t: | |
vnew = V[k] | |
if vold*vnew < 0: | |
count += 1 | |
vold = vnew | |
k += 1 | |
tnew = T[k] | |
a = ctx.siegelz(t) | |
if a*vold < 0: | |
count += 1 | |
return count | |
def comp_fp_tolerance(ctx, n): | |
wpz = wpzeros(n*ctx.log(n)) | |
if n < 15*10**8: | |
fp_tolerance = 0.0005 | |
elif n <= 10**14: | |
fp_tolerance = 0.1 | |
else: | |
fp_tolerance = 100 | |
return wpz, fp_tolerance | |
def nzeros(ctx, t): | |
r""" | |
Computes the number of zeros of the Riemann zeta function in | |
`(0,1) \times (0,t]`, usually denoted by `N(t)`. | |
**Examples** | |
The first zero has imaginary part between 14 and 15:: | |
>>> from mpmath import * | |
>>> mp.dps = 15; mp.pretty = True | |
>>> nzeros(14) | |
0 | |
>>> nzeros(15) | |
1 | |
>>> zetazero(1) | |
(0.5 + 14.1347251417347j) | |
Some closely spaced zeros:: | |
>>> nzeros(10**7) | |
21136125 | |
>>> zetazero(21136125) | |
(0.5 + 9999999.32718175j) | |
>>> zetazero(21136126) | |
(0.5 + 10000000.2400236j) | |
>>> nzeros(545439823.215) | |
1500000001 | |
>>> zetazero(1500000001) | |
(0.5 + 545439823.201985j) | |
>>> zetazero(1500000002) | |
(0.5 + 545439823.325697j) | |
This confirms the data given by J. van de Lune, | |
H. J. J. te Riele and D. T. Winter in 1986. | |
""" | |
if t < 14.1347251417347: | |
return 0 | |
x = gram_index(ctx, t) | |
k = int(ctx.floor(x)) | |
wpinitial = ctx.prec | |
wpz, fp_tolerance = comp_fp_tolerance(ctx, k) | |
ctx.prec = wpz | |
a = ctx.siegelz(t) | |
if k == -1 and a < 0: | |
return 0 | |
elif k == -1 and a > 0: | |
return 1 | |
if k+2 < 400000000: | |
Rblock = find_rosser_block_zero(ctx, k+2) | |
else: | |
Rblock = search_supergood_block(ctx, k+2, fp_tolerance) | |
n1, n2 = Rblock[1] | |
if n2-n1 == 1: | |
b = Rblock[3][0] | |
if a*b > 0: | |
ctx.prec = wpinitial | |
return k+1 | |
else: | |
ctx.prec = wpinitial | |
return k+2 | |
my_zero_number,block, T, V = Rblock | |
zero_number_block = n2-n1 | |
T, V, separated = separate_zeros_in_block(ctx,\ | |
zero_number_block, T, V,\ | |
limitloop=ctx.inf,\ | |
fp_tolerance=fp_tolerance) | |
n = count_to(ctx, t, T, V) | |
ctx.prec = wpinitial | |
return n+n1+1 | |
def backlunds(ctx, t): | |
r""" | |
Computes the function | |
`S(t) = \operatorname{arg} \zeta(\frac{1}{2} + it) / \pi`. | |
See Titchmarsh Section 9.3 for details of the definition. | |
**Examples** | |
>>> from mpmath import * | |
>>> mp.dps = 15; mp.pretty = True | |
>>> backlunds(217.3) | |
0.16302205431184 | |
Generally, the value is a small number. At Gram points it is an integer, | |
frequently equal to 0:: | |
>>> chop(backlunds(grampoint(200))) | |
0.0 | |
>>> backlunds(extraprec(10)(grampoint)(211)) | |
1.0 | |
>>> backlunds(extraprec(10)(grampoint)(232)) | |
-1.0 | |
The number of zeros of the Riemann zeta function up to height `t` | |
satisfies `N(t) = \theta(t)/\pi + 1 + S(t)` (see :func:nzeros` and | |
:func:`siegeltheta`):: | |
>>> t = 1234.55 | |
>>> nzeros(t) | |
842 | |
>>> siegeltheta(t)/pi+1+backlunds(t) | |
842.0 | |
""" | |
return ctx.nzeros(t)-1-ctx.siegeltheta(t)/ctx.pi | |
""" | |
_ROSSER_EXCEPTIONS is a list of all exceptions to | |
Rosser's rule for n <= 400 000 000. | |
Alternately the entry is of type [n,m], or a string. | |
The string is the zero pattern of the Block and the relevant | |
adjacent. For example (010)3 corresponds to a block | |
composed of three Gram intervals, the first ant third without | |
a zero and the intermediate with a zero. The next Gram interval | |
contain three zeros. So that in total we have 4 zeros in 4 Gram | |
blocks. n and m are the indices of the Gram points of this | |
interval of four Gram intervals. The Rosser exception is therefore | |
formed by the three Gram intervals that are signaled between | |
parenthesis. | |
We have included also some Rosser's exceptions beyond n=400 000 000 | |
that are noted in the literature by some reason. | |
The list is composed from the data published in the references: | |
R. P. Brent, J. van de Lune, H. J. J. te Riele, D. T. Winter, | |
'On the Zeros of the Riemann Zeta Function in the Critical Strip. II', | |
Math. Comp. 39 (1982) 681--688. | |
See also Corrigenda in Math. Comp. 46 (1986) 771. | |
J. van de Lune, H. J. J. te Riele, | |
'On the Zeros of the Riemann Zeta Function in the Critical Strip. III', | |
Math. Comp. 41 (1983) 759--767. | |
See also Corrigenda in Math. Comp. 46 (1986) 771. | |
J. van de Lune, | |
'Sums of Equal Powers of Positive Integers', | |
Dissertation, | |
Vrije Universiteit te Amsterdam, Centrum voor Wiskunde en Informatica, | |
Amsterdam, 1984. | |
Thanks to the authors all this papers and those others that have | |
contributed to make this possible. | |
""" | |
_ROSSER_EXCEPTIONS = \ | |
[[13999525, 13999528], '(00)3', | |
[30783329, 30783332], '(00)3', | |
[30930926, 30930929], '3(00)', | |
[37592215, 37592218], '(00)3', | |
[40870156, 40870159], '(00)3', | |
[43628107, 43628110], '(00)3', | |
[46082042, 46082045], '(00)3', | |
[46875667, 46875670], '(00)3', | |
[49624540, 49624543], '3(00)', | |
[50799238, 50799241], '(00)3', | |
[55221453, 55221456], '3(00)', | |
[56948779, 56948782], '3(00)', | |
[60515663, 60515666], '(00)3', | |
[61331766, 61331770], '(00)40', | |
[69784843, 69784846], '3(00)', | |
[75052114, 75052117], '(00)3', | |
[79545240, 79545243], '3(00)', | |
[79652247, 79652250], '3(00)', | |
[83088043, 83088046], '(00)3', | |
[83689522, 83689525], '3(00)', | |
[85348958, 85348961], '(00)3', | |
[86513820, 86513823], '(00)3', | |
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