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sugar.py
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import sys
import re
import sympy as sp
import indexedexp as ixp
from outputC import lhrh
from colored import colored
from inspect import currentframe
from nrpylatex import parse_latex as parse_latex_
from here import here
from fstr import f
import warnings
warnings.filterwarnings('ignore',r'some variable\(s\) in the namespace were overridden')
coords = None
class excepthook:
def __init__(self):
self.excepthook = sys.excepthook
def __enter__(self):
pass
def __exit__(self, ty, val, tb):
sys.excepthook = self.excepthook
def parse_latex(*args,**kwargs):
with excepthook():
args = (re.sub(r'dt2alp',r'dtdtalp',args[0]),)
return parse_latex_(*args,**kwargs)
def set_coords(*c):
global coords
latex = "% coord ["+", ".join(c)+"]"
parse_latex(latex)
coords = c
def flatten(lists):
"""
Convert lists of lists of list to one list.
>>> flatten([[1,2,[3,4],5,[6,[7,[8]]]]])
[1, 2, 3, 4, 5, 6, 7, 8]
"""
new_list = []
for item in lists:
if isinstance(item, list):
new_list += flatten(item)
else:
new_list += [item]
return new_list
###
class Seq:
"""
Convert a sequence of D's and U's signifying "down" and "up" indexes
into a latex equivalent which, when combined with specific index values
becomes a format sequence for latex. Thus, "DD" becomes "_{%s %s}",
"U" becomes "^{%s}" and "UUD" becomes "^{%s %s}_{%s}".
"""
def __init__(self,seq):
self.fmt = ""
self.prev = ""
for letter in seq:
self.add(letter)
if self.fmt != "":
self.fmt += "}"
def add(self, letter):
if letter in ["l","D"]:
if self.prev == letter:
self.fmt += " %s"
elif self.fmt == "":
self.fmt += "_{%s"
else:
self.fmt += "}_{%s"
elif letter in ["u","U"]:
if self.prev == letter:
self.fmt += " %s"
elif self.fmt == "":
self.fmt += "^{%s"
else:
self.fmt += "}^{%s"
else:
assert False
self.prev = letter
def _latex_def(basename, fmt, gf, args):
assert coords is not None, "Please call set_coords()"
if isinstance(gf, list):
for i in range(len(gf)):
_latex_def(basename, fmt, gf[i], args + [coords[i]])
else:
indexes = fmt % tuple(args)
latex = f("% \\mathrm{{{basename}}}{indexes} = \\mathrm{{{gf}}}")
parse_latex(latex)
def latex_def(basename, sig, gf):
s = Seq(sig)
_latex_def(basename, s.fmt, gf, [])
def match_expr(expr):
"""
Parse a sequence of tensor expressions, e.g. T_{a b} beta^a, into a tuple sequence.
"""
result = []
while True:
g = re.match(r'''(?x)
\s+| # spaces
%.*| # comments
\\mathrm{([A-Za-z_]+)}| # var name, group 1
\\(hat|tilde|bar){\\?([A-Za-z_]+)}| # var name, group 2 and 3
\\?([A-Za-z]+)| # var name, group 4
([\^_]){\ *((?:[a-z]\ )*[a-z])\ *}| # multi-index, group 5 and 6
([\^_])([a-z])| # single index, group 7 and 8
=
''',expr)
if g:
s = g.group(0)
assert s != '', f("{g.group(0)}, {expr}")
if g.group(1) is not None:
result += [("symbol",g.group(1))]
elif g.group(2) is not None:
assert g.group(3) is not None
result += [("symbol",g.group(3)+g.group(2))]
elif g.group(4) is not None:
result += [("symbol",g.group(4))]
elif g.group(5) is not None:
if g.group(5) == "^":
typestr = "upindex"
else:
typestr = "downindex"
answer = re.split(r'\s+',g.group(6))
result += [(typestr,answer)]
elif g.group(7) is not None:
if g.group(7) == "^":
typestr = "upindex"
else:
typestr = "downindex"
answer = [g.group(8)]
result += [(typestr,answer)]
elif g.group(0) == "=":
result += [("equals","=")]
result += [("end",expr[g.end():])]
break
expr = expr[g.end():]
else:
result += [("end",expr)]
break
return result
###
def get_add_type():
a, b = sp.symbols("a b")
return type(a+b)
# Need to get type type of two symbols added together
# comparing with sp.core.add.Add seems to sometimes
# not work.
Add = get_add_type()
properties = {}
variants = {}
definitions = {}
verbose = False
sim_params = {}
def gfparams(**kw):
global sim_params
sim_params = {}
for k in kw:
if k == "symmetries":
sim_params["symmetry_option"] = kw[k]
else:
sim_params[k] = kw[k]
if "DIM" not in sim_params:
sim_params["DIM"] = 3
def n(s):
if s is None:
return ""
assert isinstance(s, str)
return s
def numstr(n):
assert n >= 0
if n == 0:
return ""
return str(n)
def _deriv_decl(globs, tens, base, suffix, rank, div, indexes, rstart, sym_start, DIM):
"""
>>> import NRPy_param_funcs as par
>>> decl_indexes()
>>> set_coords("x","y","z")
>>> gfparams(gf_type="EXTERNAL",symmetries="sym01",centering="VVV",external_module="ADMBase",namefun=name_xyz)
>>> gfdecl("chi",[])
>>> deriv_decl(chi, ("_d",[li]), ("_dup",[li]))
>>> chi_dD
[chi_dD0, chi_dD1, chi_dD2]
>>> chi_dupD
[chi_dupD0, chi_dupD1, chi_dupD2]
"""
# base += div
suffix2 = ''
for k in indexes:
rank += 1
if str(k)[0] == 'u':
suffix2 += 'U'
else:
suffix2 += 'D'
sym_list = list(sym_start)
for i in range(rstart, rank-1):
sym_list += [f("sym{i}{i+1}")]
fullname = base + suffix + div + suffix2
syms = "_".join(sym_list)
result = ixp.declare_indexedexp(rank=rank, \
symbol=fullname, dimension=DIM, \
symmetry=syms)
globs[fullname] = result
nm = base + numstr(len(suffix)) + div + numstr(len(suffix2))
globs[nm] = sp.IndexedBase(nm)
definitions[nm + suffix + suffix2] = result
def deriv_decl(tens, *args):
DIM = sim_params.get("DIM",3)
globs = currentframe().f_back.f_globals
rank = 0
suffix = ''
if isinstance(tens, sp.Symbol):
base = str(tens)
else:
base = str(tens.base)
for k in tens.args[1:]:
rank += 1
if str(k)[0] == 'u':
suffix += 'U'
else:
suffix += 'D'
rstart = rank
props = properties.get(base+suffix, {})
symmetries = getsyms(props.get("symmetry_option",None))
sym_start = []
for sym in symmetries:
if sym[2] == 1:
sym_start += [f("sym{sym[0]}{sym[1]}")]
else:
sym_start += [f("asym{sym[0]}{sym[1]}")]
div = None
indexes = None
for arg in args:
if isinstance(arg, str):
div = arg
if indexes is None:
continue
elif isinstance(arg, list):
indexes = arg
if div is None:
continue
elif isinstance(arg, tuple):
assert isinstance(arg[0], str)
assert isinstance(arg[1], list)
div, indexes = arg
_deriv_decl(globs, tens, base, suffix, rank, div, indexes, rstart, sym_start, DIM)
def gfdecl(*args):
"""
>>> import NRPy_param_funcs as par
>>> decl_indexes()
>>> set_coords("x","y","z")
>>> gfparams(gf_type="EXTERNAL",symmetries="sym01",centering="VVV",external_module="ADMBase",namefun=name_xyz)
>>> gfdecl("eTtt",[],"eTt",[la],"eT",[la,lb])
>>> (eTtt,eTtD,eTDD)
(eTtt, [eTtx, eTty, eTtz], [[eTxx, eTxy, eTxz], [eTxy, eTyy, eTyz], [eTxz, eTyz, eTzz]])
"""
if len(args)>0 and isinstance(args[-1], dict):
globs = args[-1]
args = args[:-1]
else:
globs = currentframe().f_back.f_globals
namelist = []
for arg in args:
if isinstance(arg, str):
namelist += [arg]
#sim_params["gf_basename"] = name
#globs[name] = ixp.register_gridfunctions_for_single_rankN(**sim_params)
elif isinstance(arg, list):
#gfparams(rank=len(arg))
rank = len(arg)
suffix = ""
for k in arg:
assert isinstance(k, sp.tensor.indexed.Idx)
if str(k)[0] == "u":
suffix += "U"
elif str(k)[0] == "l":
suffix += "D"
else:
assert False,f("{k} {type(k)}")
for basename in namelist:
assert not re.match(r'^.*[DU]$',basename), f("Bad declaration for '{basename}'. Basenames should not end in D or U.")
fullname = basename + suffix
if basename not in globs:
if rank>0:
globs[basename] = sp.IndexedBase(basename,shape=tuple([sim_params["DIM"]]*len((arg))))
name = basename + suffix
copy = {}
for k in sim_params:
copy[k] = sim_params[k]
copy["gf_basename"] = name
copy["rank"] = rank
if rank < 2:
copy["symmetry_option"] = None
if copy["gf_type"] != "EXTERNAL":
copy["external_module"] = None
assert fullname not in properties, f("Redefinition of {fullname}")
base_variants = variants.get(basename,set())
sym1 = copy.get("symmetry_option", "")
if verbose:
print(colored("Adding Definition for:","cyan"),basename)
for k in copy:
print(" ",colored(k+":","yellow"),copy[k])
if len(base_variants) > 0:
print(" ",colored("Previous Definitions:","yellow"),base_variants)
print()
latex = f("% define {fullname} --dim {properties.get('DIM',3)}")
if sym1 not in ["", None]:
latex += f(" --sym {sym1}")
parse_latex(latex)
base_variants.add(fullname)
variants[basename] = base_variants
properties[fullname] = copy
if copy["gf_type"] == "DERIV":
s = []
for i in range(0,copy["rank"]-1):
assert i+1 <= 9
s += ["sym"+str(i)+str(i+1)]
gf = ixp.declare_indexedexp(rank=copy["rank"], \
symbol=copy["gf_basename"], dimension=copy["DIM"], \
symmetry="_".join(s), \
namefun=copy.get("namefun",None))
else:
gf = ixp.register_gridfunctions_for_single_rankN(**copy)
namefun = copy.get("namefun",None)
if namefun is not None:
# - basename is something like "g" for the metric
# - suffix is something like DD
# - gf will be an array of values
#
# These will be assembled into a latex expression
# which will be passed off to parse_latex().
latex_def(basename, suffix, gf)
globs[name] = gf
definitions[name] = gf
namelist = []
assert len(namelist)==0, "Missing final index args"
indexdefs = {}
def latex_tensor(inp, globs = None):
"""
Parse a sequence of tensor expressions, e.g. T_{a b} beta^a, into a tuple sequence.
"""
if globs is None:
globs = currentframe().f_back.f_globals
assert isinstance(inp, str), "input shoud be str"
assert "," not in inp, f("Commas are not valid in input: '{inp}'")
args = match_expr(inp)
assert len(args) > 0, f("Failed to parse {inp}")
assert args[-1][0] == "end", args[-1]
symbol = None
indexes = []
results = []
for a in args:
if a[0] == "symbol":
if symbol is not None:
results += [(symbol, indexes)]
symbol = None
indexes = []
symbol = a[1]
elif a[0] == "upindex":
for letter in a[1]:
pair = indexdefs[letter]
up = pair[1]
indexes += [ up ]
elif a[0] == "downindex":
for letter in a[1]:
pair = indexdefs[letter]
down = pair[0]
indexes += [ down ]
results += [(symbol, indexes)]
return results
def symlatex(inp, globs=None):
if globs is None:
globs = currentframe().f_back.f_globals
symbol, indexes = latex_tensor(inp,globs)[0]
if len(indexes) == 0:
estr = symbol
else:
estr = f("{symbol}{indexes}")
try:
return eval(estr,globs)
except Exception as e:
here("Bad expression:",estr)
raise e
def gflatex(inp, globs = None):
"""
>>> import NRPy_param_funcs as par
>>> decl_indexes()
>>> set_coords("x","y","z")
>>> gfparams(gf_type="EXTERNAL",symmetries="sym01",centering="VVV",external_module="ADMBase",namefun=name_xyz)
>>> gflatex(r"k_{i j} alpt beta^i")
>>> (kDD,alpt,betaU)
([[kxx, kxy, kxz], [kxy, kyy, kyz], [kxz, kyz, kzz]], alpt, [betax, betay, betaz])
"""
if globs is None:
globs = currentframe().f_back.f_globals
for symbol, indexes in latex_tensor(inp, globs):
if symbol is not None:
gfdecl(symbol, indexes, globs)
def decl_indexes():
g = currentframe().f_back.f_globals
for c in range(ord('a'),ord('z')+1):
letter = chr(c)
dn, up = sp.symbols(f("l{letter} u{letter}"), cls=sp.Idx)
g[f("l{letter}")] = dn
g[f("u{letter}")] = up
indexdefs[letter] = (dn, up)
def ixnam(i):
return ["x", "y", "z"][i]
def namefun(symbol, index, shape, prefix):
symbol = prefix
result = [sp.Symbol(symbol + ''.join(ixnam(n) for n in index + [i]))
if symbol else sp.sympify(0) for i in range(shape[0])]
return result
def name_xyz(sym,ind,shape):
symbase = re.sub("[UD]+$","",sym)
return namefun(sym,ind,shape,symbase)
def matchindex(s):
return re.match(r'^([ul])([a-z])$', str(s))
UP_INDEX = 1
DOWN_INDEX = 2
CONTRACTED_INDEX = UP_INDEX | DOWN_INDEX
def getindexes(expr):
"""
getindexes(expr) finds all the symbols in expr that
represent up or down indexes.
"""
indexes = {}
for sym in expr.free_symbols:
ssym = str(sym)
g = matchindex(ssym)
if g:
updn = g.group(1)
let = g.group(2)
if updn == "u":
mask = UP_INDEX
else:
mask = DOWN_INDEX
indexes[let] = indexes.get(let,0) | mask
return indexes
def incrindexes(indexes_input,dim,symmetries=None):
"""
This function is designed to generate all permuations
of values for a set of indexes. The `indexes_input`
should be an array of zeros. Thus incrindexes(2,2) should yield
the sequence [0,0], [0,1], [1,0], [1,1]. Symmetries
is passed in as a triple of values which represent a pair indexes
plus a sign. If the indices are switched, a symmetric (or antisymmetric)
part of the matrix is identified.
Thus, incrindexes(2,2,[0,1,1]) should yield [0,0], [1,0], and [1,1].
By symmetry, the index [0,1] is not needed.
"""
if symmetries is None:
symmetries = []
# Make a copy of the input
indexes = [0]*indexes_input
yield indexes
while True:
for i in range(len(indexes)):
indexes[i] += 1
max_val = dim
for symmetry in symmetries:
# Check the symmetry
assert len(symmetry) == 3, f("The symmetry is {symmetry}, it should be (index1,index2,sign)")
assert symmetry[2] in [1, -1] # Third index is the sign
assert isinstance(symmetry, (list, tuple))
# We want the symmetry ordered
assert symmetry[0] < symmetry[1]
if symmetry[0] == i:
j = symmetry[1]
max_val = min(max_val,indexes[j]+1)
if indexes[i] >= max_val:
if i+1 == len(indexes):
return
indexes[i] = 0
else:
result = list(indexes)
yield result
break
def lookup(array, indexes, i=0):
if i >= len(indexes):
return array
else:
return lookup(array[indexes[i]], indexes, i+1)
def getsyms(syms):
"""
Parse a symmetry string and return a triple of the
form index1, index2, and sign.
"""
li = []
if syms in [None,""]:
return li
for sym in syms.split('_'):
g = re.match(r'^(a?sym)(\d)(\d)', sym)
assert g, f("Bad symmetry: '{sym}'")
if g.group(1) == "sym":
sign = 1
else:
sign = -1
sym = (int(g.group(2)),int(g.group(3)),sign)
assert sym[0] < sym[1], f("Symmetry indexes should be in order: {sym}")
li += [sym]
return li
def getsuffix(expr):
suffix = ""
# Can't use free_symbols because the order varies.
# We need the order that the user supplied.
for sym in expr.args[1:]: #expr.free_symbols:
g = matchindex(sym)
if g:
if g.group(1) == "u":
suffix += "U"
else:
suffix += "D"
return suffix
def make_sum(expr, dim=3):
expr = sp.expand(expr)
if isinstance(expr, Add):
sume = sp.sympify(0)
for a in expr.args:
sume += make_sum(a,dim)
return sume
elif isinstance(expr, sp.Piecewise):
nargs = []
for k in expr.args:
narg = make_sum(k[0]), k[1]
nargs += [narg]
return sp.Piecewise(*nargs)
elif expr.is_Function:
if len(expr.args)==1:
expr = expr.func(make_sum(expr.args[0]))
elif len(expr.args)==2:
expr = expr.func(make_sum(expr.args[0]),make_sum(expr.args[1]))
else:
raise Exception(f("len(expr.args)={len(expr.args)} not handled."))
return expr
indexes = {}
for fsym in expr.free_symbols:
fs = str(fsym)
g = matchindex(fs)
if g:
# This is an index
updown = g.group(1)
letter = g.group(2)
if letter not in indexes:
indexes[letter] = 0
if updown == "u":
indexes[letter] |= 1
else:
indexes[letter] |= 2
for index in indexes:
if indexes[index] == 3:
new_expr = sp.sympify(0)
un, dn = sp.symbols(f("u{index} l{index}"), cls=sp.Idx)
for d in range(dim):
u1, d1 = sp.symbols(f("u{d} l{d}"), cls=sp.Idx)
new_expr += expr.subs(un,u1).subs(dn,d1)
expr = new_expr
return expr
def eval_expression(expr):
subs = {}
for sym in expr.free_symbols:
if isinstance(sym, sp.tensor.indexed.Indexed):
nm = str(sym.base)
indexes = []
for k in sym.args[1:]:
ks = str(k)
assert not re.match(r'([ul])([a-z])$', ks), f("Unevaluated index '{ks}' in expression '{expr}'")
g = re.match(r'([ul])(\d)$', ks)
if not g:
here(f("`{ks}'"))
continue
if g.group(1) == "u":
nm += "U"
else:
nm += "D"
indexes += [int(g.group(2))]
assert nm in definitions, f("Missing defenition for '{nm}'.")
subs[sym] = lookup(definitions[nm],indexes)
return expr.subs(subs)
def eval_sum(expr,dim=3):
expr = make_sum(expr, dim)
return eval_expression(expr)
def geneqns3(eqn, DIM=3, globs=None, loop=False):
if globs is None:
globs = currentframe().f_back.f_globals
m = match_expr(eqn)
assert len(m) >= 2, f("match_expr failed for '{eqn}' -> {m}")
sy = symlatex(eqn, globs)
return geneqns2(lhs=sy, rhs=m[-1][1], loop=loop, globs=globs, DIM=DIM)
def geneqns2(lhs, rhs, DIM=3, globs=None, loop=False):
if globs is None:
globs = currentframe().f_back.f_globals
lhs_str = r"\mathrm{result}"
last = ""
suffix = ""
# We expect a tensor expression of the form Foo[la,lb,ua,ub]
# We will create a latex expression for this to pass to nrpylatex.
assert isinstance(lhs, sp.Indexed), f("Type of lhs was '{type(lhs)}', not Indexed")
for a in lhs.args[1:]:
sa = str(a)
# Ensure that we have an index, ua, ub,... or la, lb, ...
assert len(sa) == 2
if sa[0] == 'u':
if last != "u":
if last != "":
lhs_str += "}"
lhs_str += "^{"
suffix += "U"
else:
assert sa[0] == 'l'
if last != "l":
if last != "":
lhs_str += "}"
lhs_str += "_{"
suffix += "D"
lhs_str += sa[1] + " "
last = sa[0]
latex = lhs_str + "}=" + rhs
# The parse expression is of the form "result_{a b ...}^{c d ...} = foo_{a b ...}^{c d ...}"
# When evaluated, it will assign to the "result" global variable.
parse_latex(latex) #,verbose=True)
return geneqns(lhs=lhs, values=globals()["result"+suffix], globs=globs, loop=loop, DIM=DIM)
def geneqns(lhs, rhs=None, values=None, DIM=3, globs=None, loop=False):
"""
>>> #import NRPy_param_funcs as par
>>> decl_indexes()
>>> #set_coords("x","y","z")
>>> gfparams(gf_type="EXTERNAL",symmetries="sym01",centering="VVV",external_module="ADMBase",namefun=name_xyz)
>>> gfdecl("alp",[])
>>> deriv_decl(alp, ("_d",[li]), ("_dup",[li]))
>>> gfdecl("dalp",[la])
>>> geneqns(lhs=dalp[li], values=alp_dD)
[lhrh(lhs=dalpx, rhs=alp_dD0), lhrh(lhs=dalpy, rhs=alp_dD1), lhrh(lhs=dalpz, rhs=alp_dD2)]
"""
if globs is None:
globs = currentframe().f_back.f_globals
if rhs is None and values is None and isinstance(lhs, str):
return geneqns3(lhs, DIM=DIM, globs=globs, loop=loop)
if values is None and isinstance(rhs, str):
return geneqns2(lhs, rhs, DIM=DIM, globs=globs, loop=loop)
if hasattr(lhs,"base"):
nm = str(lhs.base)+getsuffix(lhs)
props = properties.get(nm, {})
symmetries = getsyms(props.get("symmetry_option",""))
else:
assert lhs, f("{lhs}, {type(lhs)}")
if values is None:
assert rhs is not None, "Must supply either values or rhs to geneqns"
lhs_indexes = getindexes(lhs)
rhs_indexes = getindexes(rhs)
for k in lhs_indexes:
assert lhs_indexes[k] != CONTRACTED_INDEX, f("Contracted indexes are not allowed on the left hand side: '{lhs}'")
assert lhs_indexes.get(k,-1) == rhs_indexes.get(k,-1), f("Free index '{k}' does not match on the lhs and rhs.")
for k in rhs_indexes:
if rhs_indexes[k] == CONTRACTED_INDEX:
continue
assert lhs_indexes.get(k,-1) == rhs_indexes.get(k,-1), f("Free index '{k}' does not match on the rhs and lhs.")
if len(lhs_indexes)==0:
return [lhrh(lhs=lhs, rhs=eval_sum(rhs))]
else:
result = []
indexes = lhs.args[1:] # These will be the indexes
for index in incrindexes(len(indexes), DIM, symmetries):
expr_lhs = lhs
expr_rhs = rhs
for i in range(len(indexes)):
ix = indexes[i]
letter = str(ix)[0]
assert letter in "ul"
rix = sp.symbols(letter+str(index[i]))
expr_lhs = expr_lhs.subs(ix, rix)
expr_rhs = expr_rhs.subs(ix, rix)
expr_lhs = eval_sum(expr_lhs)
expr_rhs = eval_sum(expr_rhs)
result += [lhrh(lhs=expr_lhs, rhs=expr_rhs)]
if loop:
result += [lhrh(lhs=None, rhs=None)]
return result
elif rhs is None:
result = []
assert values is not None, "Must supply either values or rhs to geneqns"
indexes = getindexes(lhs)
for index in indexes:
assert indexes[index] != CONTRACTED_INDEX, f("Error, contracted index in lhs: '{index}'")
for index in incrindexes(len(indexes), DIM, symmetries):
result += [lhrh(lhs=lookup(definitions[nm],index),rhs=lookup(values, index))]
if loop:
loop += [lhrh(lhs=None, rhs=None)]
return result #generatevalues(lhs,rhs,[0]*len(indexes),symmetries)
else:
assert False, "Must supply either values or rhs to geneqns"
if __name__ == "__main__":
import doctest
doctest.testmod()