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test.irp.f is now checked
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@ -36,7 +36,7 @@ Documentation
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integral of the AO basis <ik|jl> or (ij|kl)
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integral of the AO basis <ik|jl> or (ij|kl)
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i(r1) j(r1) 1/r12 k(r2) l(r2)
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i(r1) j(r1) 1/r12 k(r2) l(r2)
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`ao_bielec_integral_schwartz <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L341>`_
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`ao_bielec_integral_schwartz <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L350>`_
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Needed to compuet Schwartz inequalities
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Needed to compuet Schwartz inequalities
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`ao_bielec_integrals_in_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L188>`_
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`ao_bielec_integrals_in_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L188>`_
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@ -46,48 +46,48 @@ Documentation
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`compute_ao_bielec_integrals <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L147>`_
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`compute_ao_bielec_integrals <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L147>`_
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Compute AO 1/r12 integrals for all i and fixed j,k,l
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Compute AO 1/r12 integrals for all i and fixed j,k,l
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`eri <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L502>`_
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`eri <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L511>`_
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ATOMIC PRIMTIVE bielectronic integral between the 4 primitives ::
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ATOMIC PRIMTIVE bielectronic integral between the 4 primitives ::
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primitive_1 = x1**(a_x) y1**(a_y) z1**(a_z) exp(-alpha * r1**2)
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primitive_1 = x1**(a_x) y1**(a_y) z1**(a_z) exp(-alpha * r1**2)
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primitive_2 = x1**(b_x) y1**(b_y) z1**(b_z) exp(- beta * r1**2)
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primitive_2 = x1**(b_x) y1**(b_y) z1**(b_z) exp(- beta * r1**2)
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primitive_3 = x2**(c_x) y2**(c_y) z2**(c_z) exp(-delta * r2**2)
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primitive_3 = x2**(c_x) y2**(c_y) z2**(c_z) exp(-delta * r2**2)
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primitive_4 = x2**(d_x) y2**(d_y) z2**(d_z) exp(- gama * r2**2)
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primitive_4 = x2**(d_x) y2**(d_y) z2**(d_z) exp(- gama * r2**2)
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`general_primitive_integral <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L367>`_
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`general_primitive_integral <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L376>`_
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Computes the integral <pq|rs> where p,q,r,s are Gaussian primitives
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Computes the integral <pq|rs> where p,q,r,s are Gaussian primitives
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`give_polynom_mult_center_x <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L647>`_
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`give_polynom_mult_center_x <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L656>`_
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subroutine that returns the explicit polynom in term of the "t"
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subroutine that returns the explicit polynom in term of the "t"
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variable of the following polynomw :
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variable of the following polynomw :
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I_x1(a_x, d_x,p,q) * I_x1(a_y, d_y,p,q) * I_x1(a_z, d_z,p,q)
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I_x1(a_x, d_x,p,q) * I_x1(a_y, d_y,p,q) * I_x1(a_z, d_z,p,q)
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`i_x1_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L591>`_
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`i_x1_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L600>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x1_pol_mult <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L710>`_
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`i_x1_pol_mult <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L719>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x1_pol_mult_a1 <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L830>`_
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`i_x1_pol_mult_a1 <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L839>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x1_pol_mult_a2 <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L884>`_
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`i_x1_pol_mult_a2 <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L893>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x1_pol_mult_recurs <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L744>`_
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`i_x1_pol_mult_recurs <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L753>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x2_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L614>`_
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`i_x2_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L623>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`i_x2_pol_mult <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L946>`_
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`i_x2_pol_mult <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L955>`_
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recursive function involved in the bielectronic integral
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recursive function involved in the bielectronic integral
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`integrale_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L546>`_
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`integrale_new <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L555>`_
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calculate the integral of the polynom ::
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calculate the integral of the polynom ::
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I_x1(a_x+b_x, c_x+d_x,p,q) * I_x1(a_y+b_y, c_y+d_y,p,q) * I_x1(a_z+b_z, c_z+d_z,p,q)
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I_x1(a_x+b_x, c_x+d_x,p,q) * I_x1(a_y+b_y, c_y+d_y,p,q) * I_x1(a_z+b_z, c_z+d_z,p,q)
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between ( 0 ; 1)
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between ( 0 ; 1)
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`n_pt_sup <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L633>`_
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`n_pt_sup <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/ao_bi_integrals.irp.f#L642>`_
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Returns the upper boundary of the degree of the polynom involved in the
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Returns the upper boundary of the degree of the polynom involved in the
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bielctronic integral :
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bielctronic integral :
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Ix(a_x,b_x,c_x,d_x) * Iy(a_y,b_y,c_y,d_y) * Iz(a_z,b_z,c_z,d_z)
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Ix(a_x,b_x,c_x,d_x) * Iy(a_y,b_y,c_y,d_y) * Iz(a_z,b_z,c_z,d_z)
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@ -158,14 +158,20 @@ Documentation
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`add_integrals_to_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L40>`_
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`add_integrals_to_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L40>`_
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Adds integrals to tha MO map according to some bitmask
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Adds integrals to tha MO map according to some bitmask
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`mo_bielec_integral_jj <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L305>`_
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`mo_bielec_integral_jj <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L314>`_
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Transform Bi-electronic integrals <ij|ij> and <ij|ji>
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mo_bielec_integral_jj(i,j) = J_ij
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mo_bielec_integral_jj_exchange(i,j) = J_ij
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mo_bielec_integral_jj_anti(i,j) = J_ij - K_ij
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`mo_bielec_integral_jj_anti <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L307>`_
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`mo_bielec_integral_jj_anti <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L316>`_
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Transform Bi-electronic integrals <ij|ij> and <ij|ji>
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mo_bielec_integral_jj(i,j) = J_ij
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mo_bielec_integral_jj_exchange(i,j) = J_ij
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mo_bielec_integral_jj_anti(i,j) = J_ij - K_ij
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`mo_bielec_integral_jj_exchange <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L306>`_
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`mo_bielec_integral_jj_exchange <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L315>`_
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Transform Bi-electronic integrals <ij|ij> and <ij|ji>
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mo_bielec_integral_jj(i,j) = J_ij
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mo_bielec_integral_jj_exchange(i,j) = J_ij
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mo_bielec_integral_jj_anti(i,j) = J_ij - K_ij
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`mo_bielec_integrals_in_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L21>`_
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`mo_bielec_integrals_in_map <http://github.com/LCPQ/quantum_package/tree/master/src/BiInts/mo_bi_integrals.irp.f#L21>`_
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If True, the map of MO bielectronic integrals is provided
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If True, the map of MO bielectronic integrals is provided
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