+ i^^RIHtHt^RIHtHtHtHt^RIH t H t H t H t H t Ht^RIHtHt^RIHtHt^RIHtHt^RIHt^RIHt^R IHt^R IHt^R I H!t!^R I"H#t#^R I$H%t%H&t&]!R4wt't(]!R4t)]!R4t*Rt+Rt,Rt-Rt.Rt/]&R4t0Rt1Rt2Rt3Rt4Rt5Rt6R#)) DerivativeFunction)IRationaloopi)EqGeGtLeLtNe)Symbolsymbols)Abs conjugate)explog)sqrt)sin)Integral)Matrix)limit)python)raisesXFAILzx,ythetaphic\\^4)^, 4R8XgQh\\^ 4)^, 4R8XgQh\\4R8XgQh\\^,4R8XgQh\^\, 4R8XgQh\\\R ,,4R8XgQh\\\R ^4,4R8XgQh\\^,\,^,4R9gQh\^\, 4R9gQh\^^\,, 4R9gQh\^\^^4\,\, , 4R9gQh\\\, 4R8XgQh\\)\, 4R 8XgQh\\^,\, 4R9gQh\^\,\,4R9gQh\R \,\^ ,, 4R 8XgQh\^\^^4\^,,, 4R9gQhR #)ze = Rational(-1, 2)ze = Rational(-13, 22)e = oozx = Symbol('x') e = x**2zx = Symbol('x') e = 1/xz*y = Symbol('y') x = Symbol('x') e = y/x**2z&x = Symbol('x') e = x**Rational(-5, 2)z'x = Symbol('x') y = Symbol('y') e = x/yz(x = Symbol('x') y = Symbol('y') e = -x/yz!x = Symbol('x') e = -5*x/(x + 10)N)z x = Symbol('x') e = 1 + x + x**2z x = Symbol('x') e = x + x**2 + 1z x = Symbol('x') e = x**2 + x + 1)zx = Symbol('x') e = 1 - xzx = Symbol('x') e = -x + 1)zx = Symbol('x') e = 1 - 2*xzx = Symbol('x') e = -2*x + 1)z/y = Symbol('y') x = Symbol('x') e = 1 - 3/2*y/xz0y = Symbol('y') x = Symbol('x') e = -3/2*y/x + 1z1y = Symbol('y') x = Symbol('x') e = 1 - 3*y/(2*x))z/y = Symbol('y') x = Symbol('x') e = 1/y*(2 + x)z/y = Symbol('y') x = Symbol('x') e = 1/y*(x + 2)z/x = Symbol('x') y = Symbol('y') e = 1/y*(2 + x)z-x = Symbol('x') y = Symbol('y') e = (2 + x)/yz-x = Symbol('x') y = Symbol('y') e = (x + 2)/y)z-y = Symbol('y') x = Symbol('x') e = y*(1 + x)z-y = Symbol('y') x = Symbol('x') e = y*(x + 1))z7x = Symbol('x') e = Rational(-3, 2)*x + Rational(-1, 2),x = Symbol('x') e = -3*x/2 + Rational(-1, 2)r$)rrrxy^/var/www/html/photoedit/myenv/lib/python3.14/site-packages/sympy/printing/tests/test_python.pytest_python_basicr*s8 8A;,q. !%: :: : 8B<-" #'> >> > ": !! ! !Q$<8 88 8 !A#;4 44 4 !ArE'?L LL L  8B? H II I !Q$(Q, $/ // / !a%=' '' ' !ac'?) )) ) !hq!nQ&q(( ).? ?? ? !A#;E EE E 1"Q$<G GG G 1q5!) !; ;; ; 1q5!) != == = "Q$B- $H HH H !hq!na!e,, -2  r(c,\^\R4,4R8XgQh\^\R4,^\R4,,4R8XgQh\^\R4,\R4!^4,4R8XgQhR#) lambdaz(lambda_ = Symbol('lambda') e = 5*lambda_lambda_zRlambda__ = Symbol('lambda') lambda_ = Symbol('lambda_') e = 7*lambda_ + 5*lambda__forfor_zCfor__ = Symbol('for') for_ = Function('for_') e = 5*for__ + for_(8)N)rrrr'r(r)(test_python_keyword_symbol_name_escapingr1Is  &  J KK K 1VH%%&*;(;; < b cd c 1VE]?Xf%5a%88 9 S TU Tr(cV\^\R4!^4,4R8XgQhR#)r,r/z$for_ = Function('for') e = 5*for_(8)N)rrr'r(r)*test_python_keyword_function_name_escapingr3Ss0  (5/!  !H II Ir(c\\\\44R8XgQh\\ \\44R8XgQh\\ \\44R8XgQh\\ \\44R8XgQh\\\\44R8XgQh\\\\^,, \^,44R9gQhR#)z,x = Symbol('x') y = Symbol('y') e = Eq(x, y)z*x = Symbol('x') y = Symbol('y') e = x >= yz*x = Symbol('x') y = Symbol('y') e = x <= yz)x = Symbol('x') y = Symbol('y') e = x > yz)x = Symbol('x') y = Symbol('y') e = x < yN)z7x = Symbol('x') y = Symbol('y') e = Ne(x/(1 + y), y**2)z7x = Symbol('x') y = Symbol('y') e = Ne(x/(y + 1), y**2)) rr r%r&r r r r rr'r(r)test_python_relationalr5Xs "Q( O OO O "Q( M MM M "Q( M MM M "Q( L LL L "Q( L LL L "QAY1% &+E EE Er(c\^\,\\4,4R9gQh\\^44R8XgQh\^\ ^^4,4R8XgQh\\^\ ,44R8XgQh\^\ ,\ ^^4,4R8XgQh\^\ ^^4,4R8XgQh\\ \44R8XgQh\\ \\^,^,, 44R 9gQh\R4p\V!\44R 8XgQh\V!\\44R 8XgQh\V!\\^,, \44R9gQh\\\\^,4^,44R9gQh\\^,\ ^^4,^,\ ^^4,4R9gQh\\\4^,4R 8XgQhR #)z x = Symbol('x') e = 2*x + exp(x)z e = sqrt(2)ze = 2**Rational(1, 3)ze = sqrt(2 + pi)ze = (2 + pi)**Rational(1, 3)ze = 2**Rational(1, 4)zx = Symbol('x') e = Abs(x)fz*x = Symbol('x') f = Function('f') e = f(x)z=x = Symbol('x') y = Symbol('y') f = Function('f') e = f(x, y)zx = Symbol('x') e = sin(x)**2N)z%x = Symbol('x') e = Abs(x/(1 + x**2))z%x = Symbol('x') e = Abs(x/(x**2 + 1)))zEx = Symbol('x') y = Symbol('y') f = Function('f') e = f(x/(1 + y), y)zEx = Symbol('x') y = Symbol('y') f = Function('f') e = f(x/(y + 1), y))z)x = Symbol('x') e = sqrt(1 + sqrt(1 + x))z)x = Symbol('x') e = sqrt(sqrt(x + 1) + 1))zAx = Symbol('x') e = (1 + (1 + x)**Rational(1, 3))**Rational(1, 3)zAx = Symbol('x') e = ((x + 1)**Rational(1, 3) + 1)**Rational(1, 3)) rr%rrrrrrr&r)r8s r)test_python_functionsr9cs !A#A, #F FF F $q'?m ++ + !Xa^# $(? ?? ? $q2v, #5 55 5 1r6HQN* +/M MM M !Xa^# $(? ?? ? #a&>: :: :  Aq!taxL 6 66 6  A !A$<I II I !Aq'?` `` ` !Aq1uIq/ "'T TT T $QU q() */6 66 6 QUXa^+q08Aq>A BGN NN N #a&!)  @ @@ @r(c \\R4wr\\W\,,44R8XgQh\\\ W\,,444R8XgQhR#)abz_ _ a - I*bz _ _ a - I*b e N)maprrrrr)abs r) test_python_functions_conjugatesr?sR vt DA 9Q1W% '+= == = 9SqS\* ,0N NN Nr(c\\\4\RR7p\V4R8XgQh\\\4\RR7\,p\V4R8XgQh\\\4\^,,\\RR7p\V4R8XgQh\^\,\,\\RR7\^,,p\V4R9gQhR#)F)evaluatez)x = Symbol('x') e = Derivative(log(x), x)z-x = Symbol('x') e = x + Derivative(log(x), x)zCx = Symbol('x') y = Symbol('y') e = Derivative(x**2 + log(x), x, y)N)zBx = Symbol('x') y = Symbol('y') e = x**2 + Derivative(2*x*y, y, x)zBx = Symbol('x') y = Symbol('y') e = Derivative(2*x*y, y, x) + x**2)rrr%rr&)f_1f_2f_3f_4s r)test_python_derivativesrFs SVQ /C #;F FF F SVQ /! 3C #;J JJ J SVad]Aq5 9C #;O PP P QqSUAq5 1AqD 8C #;P PP Pr(c\\\4\4p\V4R8XgQh\\^,\4p\V4R8XgQh\\^\,,\4p\V4R8XgQh\\^,\^^34p\V4R8XgQh\\^,\\ ^^4^ 34p\V4R8XgQh\\^,\ ^,,\\ 4p\V4R8XgQhR#)z'x = Symbol('x') e = Integral(log(x), x)z%x = Symbol('x') e = Integral(x**2, x)z*x = Symbol('x') e = Integral(x**(2**x), x)z-x = Symbol('x') e = Integral(x**2, (x, 1, 2))z;x = Symbol('x') e = Integral(x**2, (x, Rational(1, 2), 10))z=x = Symbol('x') y = Symbol('y') e = Integral(x**2*y**2, x, y)N)rrr%rrr&)rBrCrDrEf_5f_6s r)test_python_integralsrJs 3q61 C #;D DD D 1a4 C #;B BB B 1q!t9a C #;G GG G 1a4!Q #C #;J JJ J 1a4!Xa^R0 1C   N OO O 1a419a #C #;[ [[ [r(c\\\^,^,^.\\\,..44pRpW8XgQhR#)r7zSx = Symbol('x') y = Symbol('y') e = MutableDenseMatrix([[x**2 + 1, 1], [y, x + y]])N)rrr%r&)pss r)test_python_matrixrNs8v1Q{Q!H-./A_A 6M6r(c\\\\\44R8XgQh\\\^,\^44R8XgQhR#)r!ze = 0N)rrr%rr'r(r)test_python_limitsrPs= %1b/ "h .. . %1a# $ // /r(cf\R4p\R4pW,p\V4R8XgQhR#)za_{b}r>z/a_b = Symbol('a_{b}') b = Symbol('b') e = a_b*bN)rr)a_br>exprs r)test_issue_20762rTs. /Cs A 5D $<N NN Nr(c(\\R4R#)c$\\RR7#)garbage)method)rr%r'r(r)test_settings..s fQy9r(N)r TypeErrorr'r(r) test_settingsr\s  99:r(N)7sympy.core.functionrrsympy.core.numbersrrrrsympy.core.relationalr r r r r rsympy.core.symbolrr$sympy.functions.elementary.complexesrr&sympy.functions.elementary.exponentialrr(sympy.functions.elementary.miscellaneousr(sympy.functions.elementary.trigonometricrsympy.integrals.integralsrsympy.matrices.densersympy.series.limitsrsympy.printing.pythonrsympy.testing.pytestrrr%r&thphr*r1r3r5r9r?rFrJrNrPrTr\r'r(r)rls644::/A=98.'%(.u~1 G_ E]0fUI E AFOO P&\2 0O;r(