Made the DSL syntax less confusing: Input and output arrays are now ScalarField and VectorFields instead of scalars and vectors. C++ initializers are now also possible, removing the need to declare Fields as int or int3 which was very confusing, like "what, you assing an int value to a real, what the &^%@?"
This commit is contained in:
jpekkila
@@ -1,11 +1,11 @@
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Preprocessed Scalar
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Preprocessed Scalar
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value(in Scalar vertex)
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value(in ScalarField vertex)
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{
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{
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return vertex[vertexIdx];
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return vertex[vertexIdx];
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}
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}
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Preprocessed Vector
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Preprocessed Vector
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gradient(in Scalar vertex)
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gradient(in ScalarField vertex)
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{
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{
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return (Vector){derx(vertexIdx, vertex),
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return (Vector){derx(vertexIdx, vertex),
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dery(vertexIdx, vertex),
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dery(vertexIdx, vertex),
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@@ -15,7 +15,7 @@ gradient(in Scalar vertex)
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#if LUPWD
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#if LUPWD
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Preprocessed Scalar
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Preprocessed Scalar
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der6x_upwd(in Scalar vertex)
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der6x_upwd(in ScalarField vertex)
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{
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{
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Scalar inv_ds = DCONST_REAL(AC_inv_dsx);
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Scalar inv_ds = DCONST_REAL(AC_inv_dsx);
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@@ -30,7 +30,7 @@ der6x_upwd(in Scalar vertex)
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}
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}
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Preprocessed Scalar
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Preprocessed Scalar
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der6y_upwd(in Scalar vertex)
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der6y_upwd(in ScalarField vertex)
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{
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{
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Scalar inv_ds = DCONST_REAL(AC_inv_dsy);
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Scalar inv_ds = DCONST_REAL(AC_inv_dsy);
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@@ -45,7 +45,7 @@ der6y_upwd(in Scalar vertex)
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}
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}
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Preprocessed Scalar
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Preprocessed Scalar
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der6z_upwd(in Scalar vertex)
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der6z_upwd(in ScalarField vertex)
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{
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{
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Scalar inv_ds = DCONST_REAL(AC_inv_dsz);
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Scalar inv_ds = DCONST_REAL(AC_inv_dsz);
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@@ -62,7 +62,7 @@ der6z_upwd(in Scalar vertex)
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#endif
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#endif
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Preprocessed Matrix
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Preprocessed Matrix
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hessian(in Scalar vertex)
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hessian(in ScalarField vertex)
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{
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{
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Matrix hessian;
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Matrix hessian;
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@@ -25,14 +25,14 @@ uniform int nz;
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Vector
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Vector
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value(in Vector uu)
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value(in VectorField uu)
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{
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{
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return (Vector){value(uu.x), value(uu.y), value(uu.z)};
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return (Vector){value(uu.x), value(uu.y), value(uu.z)};
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}
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}
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#if LUPWD
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#if LUPWD
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Scalar
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Scalar
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upwd_der6(in Vector uu, in Scalar lnrho)
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upwd_der6(in VectorField uu, in ScalarField lnrho)
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{
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{
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Scalar uux = fabs(value(uu).x);
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Scalar uux = fabs(value(uu).x);
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Scalar uuy = fabs(value(uu).y);
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Scalar uuy = fabs(value(uu).y);
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@@ -42,13 +42,13 @@ upwd_der6(in Vector uu, in Scalar lnrho)
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#endif
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#endif
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Matrix
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Matrix
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gradients(in Vector uu)
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gradients(in VectorField uu)
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{
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{
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return (Matrix){gradient(uu.x), gradient(uu.y), gradient(uu.z)};
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return (Matrix){gradient(uu.x), gradient(uu.y), gradient(uu.z)};
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}
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}
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Scalar
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Scalar
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continuity(in Vector uu, in Scalar lnrho) {
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continuity(in VectorField uu, in ScalarField lnrho) {
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return -dot(value(uu), gradient(lnrho))
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return -dot(value(uu), gradient(lnrho))
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#if LUPWD
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#if LUPWD
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//This is a corrective hyperdiffusion term for upwinding.
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//This is a corrective hyperdiffusion term for upwinding.
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@@ -59,7 +59,7 @@ continuity(in Vector uu, in Scalar lnrho) {
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#if LENTROPY
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#if LENTROPY
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Vector
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Vector
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momentum(in Vector uu, in Scalar lnrho, in Scalar ss, in Vector aa) {
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momentum(in VectorField uu, in ScalarField lnrho, in ScalarField ss, in VectorField aa) {
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const Matrix S = stress_tensor(uu);
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const Matrix S = stress_tensor(uu);
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const Scalar cs2 = cs2_sound * exp(gamma * value(ss) / cp_sound + (gamma - 1) * (value(lnrho) - lnrho0));
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const Scalar cs2 = cs2_sound * exp(gamma * value(ss) / cp_sound + (gamma - 1) * (value(lnrho) - lnrho0));
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const Vector j = (Scalar(1.) / mu0) * (gradient_of_divergence(aa) - laplace_vec(aa)); // Current density
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const Vector j = (Scalar(1.) / mu0) * (gradient_of_divergence(aa) - laplace_vec(aa)); // Current density
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@@ -82,7 +82,7 @@ momentum(in Vector uu, in Scalar lnrho, in Scalar ss, in Vector aa) {
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}
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}
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#elif LTEMPERATURE
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#elif LTEMPERATURE
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Vector
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Vector
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momentum(in Vector uu, in Scalar lnrho, in Scalar tt) {
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momentum(in VectorField uu, in ScalarField lnrho, in ScalarField tt) {
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Vector mom;
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Vector mom;
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const Matrix S = stress_tensor(uu);
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const Matrix S = stress_tensor(uu);
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@@ -103,7 +103,7 @@ momentum(in Vector uu, in Scalar lnrho, in Scalar tt) {
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}
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}
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#else
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#else
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Vector
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Vector
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momentum(in Vector uu, in Scalar lnrho) {
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momentum(in VectorField uu, in ScalarField lnrho) {
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Vector mom;
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Vector mom;
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const Matrix S = stress_tensor(uu);
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const Matrix S = stress_tensor(uu);
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@@ -126,7 +126,7 @@ momentum(in Vector uu, in Scalar lnrho) {
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Vector
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Vector
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induction(in Vector uu, in Vector aa) {
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induction(in VectorField uu, in VectorField aa) {
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// Note: We do (-nabla^2 A + nabla(nabla dot A)) instead of (nabla x (nabla
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// Note: We do (-nabla^2 A + nabla(nabla dot A)) instead of (nabla x (nabla
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// x A)) in order to avoid taking the first derivative twice (did the math,
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// x A)) in order to avoid taking the first derivative twice (did the math,
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// yes this actually works. See pg.28 in arXiv:astro-ph/0109497)
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// yes this actually works. See pg.28 in arXiv:astro-ph/0109497)
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@@ -144,7 +144,7 @@ induction(in Vector uu, in Vector aa) {
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#if LENTROPY
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#if LENTROPY
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Scalar
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Scalar
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lnT( in Scalar ss, in Scalar lnrho) {
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lnT( in ScalarField ss, in ScalarField lnrho) {
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const Scalar lnT = lnT0 + gamma * value(ss) / cp_sound +
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const Scalar lnT = lnT0 + gamma * value(ss) / cp_sound +
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(gamma - Scalar(1.)) * (value(lnrho) - lnrho0);
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(gamma - Scalar(1.)) * (value(lnrho) - lnrho0);
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return lnT;
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return lnT;
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@@ -152,7 +152,7 @@ lnT( in Scalar ss, in Scalar lnrho) {
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// Nabla dot (K nabla T) / (rho T)
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// Nabla dot (K nabla T) / (rho T)
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Scalar
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Scalar
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heat_conduction( in Scalar ss, in Scalar lnrho) {
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heat_conduction( in ScalarField ss, in ScalarField lnrho) {
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const Scalar inv_cp_sound = AcReal(1.) / cp_sound;
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const Scalar inv_cp_sound = AcReal(1.) / cp_sound;
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const Vector grad_ln_chi = - gradient(lnrho);
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const Vector grad_ln_chi = - gradient(lnrho);
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@@ -174,7 +174,7 @@ heating(const int i, const int j, const int k) {
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}
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}
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Scalar
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Scalar
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entropy(in Scalar ss, in Vector uu, in Scalar lnrho, in Vector aa) {
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entropy(in ScalarField ss, in VectorField uu, in ScalarField lnrho, in VectorField aa) {
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const Matrix S = stress_tensor(uu);
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const Matrix S = stress_tensor(uu);
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const Scalar inv_pT = Scalar(1.) / (exp(value(lnrho)) * exp(lnT(ss, lnrho)));
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const Scalar inv_pT = Scalar(1.) / (exp(value(lnrho)) * exp(lnT(ss, lnrho)));
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const Vector j = (Scalar(1.) / mu0) * (gradient_of_divergence(aa) - laplace_vec(aa)); // Current density
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const Vector j = (Scalar(1.) / mu0) * (gradient_of_divergence(aa) - laplace_vec(aa)); // Current density
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@@ -191,7 +191,7 @@ entropy(in Scalar ss, in Vector uu, in Scalar lnrho, in Vector aa) {
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#if LTEMPERATURE
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#if LTEMPERATURE
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Scalar
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Scalar
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heat_transfer(in Vector uu, in Scalar lnrho, in Scalar tt)
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heat_transfer(in VectorField uu, in ScalarField lnrho, in ScalarField tt)
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{
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{
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const Matrix S = stress_tensor(uu);
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const Matrix S = stress_tensor(uu);
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const Scalar heat_diffusivity_k = 0.0008; //8e-4;
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const Scalar heat_diffusivity_k = 0.0008; //8e-4;
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@@ -290,26 +290,26 @@ forcing(int3 globalVertexIdx, Scalar dt)
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// Declare input and output arrays using locations specified in the
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// Declare input and output arrays using locations specified in the
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// array enum in astaroth.h
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// array enum in astaroth.h
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in Scalar lnrho = VTXBUF_LNRHO;
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in ScalarField lnrho(VTXBUF_LNRHO);
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out Scalar out_lnrho = VTXBUF_LNRHO;
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out ScalarField out_lnrho(VTXBUF_LNRHO);
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in Vector uu = (int3) {VTXBUF_UUX, VTXBUF_UUY, VTXBUF_UUZ};
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in VectorField uu(VTXBUF_UUX, VTXBUF_UUY, VTXBUF_UUZ);
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out Vector out_uu = (int3) {VTXBUF_UUX,VTXBUF_UUY,VTXBUF_UUZ};
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out VectorField out_uu(VTXBUF_UUX,VTXBUF_UUY,VTXBUF_UUZ);
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#if LMAGNETIC
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#if LMAGNETIC
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in Vector aa = (int3) {VTXBUF_AX,VTXBUF_AY,VTXBUF_AZ};
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in VectorField aa(VTXBUF_AX,VTXBUF_AY,VTXBUF_AZ);
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out Vector out_aa = (int3) {VTXBUF_AX,VTXBUF_AY,VTXBUF_AZ};
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out VectorField out_aa(VTXBUF_AX,VTXBUF_AY,VTXBUF_AZ);
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#endif
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#endif
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#if LENTROPY
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#if LENTROPY
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in Scalar ss = VTXBUF_ENTROPY;
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in ScalarField ss(VTXBUF_ENTROPY);
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out Scalar out_ss = VTXBUF_ENTROPY;
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out ScalarField out_ss(VTXBUF_ENTROPY);
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#endif
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#endif
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#if LTEMPERATURE
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#if LTEMPERATURE
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in Scalar tt = VTXBUF_TEMPERATURE;
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in ScalarField tt(VTXBUF_TEMPERATURE);
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out Scalar out_tt = VTXBUF_TEMPERATURE;
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out ScalarField out_tt(VTXBUF_TEMPERATURE);
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#endif
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#endif
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Kernel void
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Kernel void
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@@ -15,6 +15,8 @@ L [a-zA-Z_]
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"void" { return VOID; } /* Rest of the types inherited from C */
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"void" { return VOID; } /* Rest of the types inherited from C */
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"int" { return INT; }
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"int" { return INT; }
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"int3" { return INT3; }
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"int3" { return INT3; }
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"ScalarField" { return SCALAR; }
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"VectorField" { return VECTOR; }
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"Kernel" { return KERNEL; } /* Function specifiers */
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"Kernel" { return KERNEL; } /* Function specifiers */
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"Preprocessed" { return PREPROCESSED; }
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"Preprocessed" { return PREPROCESSED; }
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@@ -101,6 +101,7 @@ exec_statement: declaration
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;
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;
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assignment: declaration '=' expression { $$ = astnode_create(NODE_UNKNOWN, $1, $3); $$->infix = '='; }
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assignment: declaration '=' expression { $$ = astnode_create(NODE_UNKNOWN, $1, $3); $$->infix = '='; }
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| declaration '(' expression_list ')' { $$ = astnode_create(NODE_UNKNOWN, $1, $3); $$->infix = '('; $$->postfix = ')'; } // C++ style initializer
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| expression '=' expression { $$ = astnode_create(NODE_UNKNOWN, $1, $3); $$->infix = '='; }
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| expression '=' expression { $$ = astnode_create(NODE_UNKNOWN, $1, $3); $$->infix = '='; }
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;
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;
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@@ -229,8 +229,11 @@ translate_latest_symbol(void)
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// IN / OUT
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// IN / OUT
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else if (symbol->type != SYMBOLTYPE_FUNCTION_PARAMETER &&
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else if (symbol->type != SYMBOLTYPE_FUNCTION_PARAMETER &&
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(symbol->type_qualifier == IN || symbol->type_qualifier == OUT)) {
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(symbol->type_qualifier == IN || symbol->type_qualifier == OUT)) {
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const char* inout_type_qualifier = "static __device__ const auto";
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printf("%s %s%s", inout_type_qualifier, inout_name_prefix, symbol_table[handle].identifier);
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printf("static __device__ const %s %s%s", symbol->type_specifier == SCALAR ? "int" : "int3",
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inout_name_prefix, symbol_table[handle].identifier);
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if (symbol->type_specifier == VECTOR)
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printf(" = make_int3");
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}
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}
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// OTHER
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// OTHER
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else {
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else {
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@@ -46,6 +46,9 @@ IDX(const int3 idx)
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return DEVICE_VTXBUF_IDX(idx.x, idx.y, idx.z);
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return DEVICE_VTXBUF_IDX(idx.x, idx.y, idx.z);
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}
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}
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#define make_int3(a, b, c) \
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(int3) { (int)a, (int)b, (int)c }
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static __forceinline__ AcMatrix
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static __forceinline__ AcMatrix
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create_rotz(const AcReal radians)
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create_rotz(const AcReal radians)
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{
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{
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Block a user