[615] | 1 | #ifdef PASS_PRE1 |
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| 2 | #define _AND_ && |
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| 3 | #define _OR_ || |
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| 4 | #define _NOT_ ! |
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| 5 | #define IS_INNER_LAYER (_NOT_ (IS_BOTTOM_LEVEL _OR_ IS_TOP_LAYER)) |
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| 6 | #define IS_INNER_INTERFACE (_NOT_ (IS_BOTTOM_LEVEL _OR_ IS_TOP_INTERFACE)) |
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| 7 | #endif |
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| 8 | |
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| 9 | #ifdef PASS_PRE2 |
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| 10 | |
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| 11 | #define BARRIER !$OMP BARRIER |
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| 12 | #define IS_INNER_INTERFACE (.NOT. (IS_BOTTOM_LEVEL .OR. IS_TOP_INTERFACE)) |
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| 13 | #define KERNEL(name) {% call() define_kernel(#name) %} |
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| 14 | #define FORALL_CELLS(...) {% call(lrange,flags) forall_cells(__VA_ARGS__) %} |
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| 15 | #define FORALL_CELLS_EXT(...) {% call(lrange,flags) forall_cells(__VA_ARGS__) %} |
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[644] | 16 | #define ON_PRIMAL {% call(mesh, degree=0) on_mesh('primal',lrange,flags) %} |
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| 17 | #define ON_DUAL {% call(mesh, degree=0) on_mesh('dual',lrange,flags) %} |
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| 18 | #define ON_EDGES {% call(mesh, degree=0) on_edges('edge',lrange,flags) %} |
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| 19 | #define FORALL_EDGES {% call forall_edges(mesh,degree) %} |
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| 20 | #define FORALL_VERTICES {% call forall_vertices(mesh,degree) %} |
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| 21 | #define FORALL_TRISK {% call forall_trisk(degree) %} |
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[615] | 22 | #define END_BLOCK {% endcall %} |
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[685] | 23 | #define SEQUENCE_C0 {% call(body,at_level) sequence_primal() %} |
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| 24 | #define SEQUENCE_C1 {% call(body,at_level) sequence_primal() %} |
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| 25 | #define SEQUENCE_E0 {% call(body,at_level) sequence_edge() %} |
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[615] | 26 | #define PROLOGUE(level) {% call at_level(level) %} |
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| 27 | #define EPILOGUE(level) {% call at_level(level) %} |
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[685] | 28 | #define BODY(range) {% call body(range) %} |
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[615] | 29 | |
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| 30 | #define CST_IF(condition, action) {{ cst_if(#condition, #action) }} |
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| 31 | #define CST_IFTHEN(condition) {{flat}}if condition |
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| 32 | #define CST_ELSEIF(condition) {{flat}}elif condition |
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| 33 | #define CST_ELSE {{flat}}else |
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| 34 | #define CST_ENDIF {{flat}}endif |
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| 35 | |
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| 36 | #endif |
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| 37 | |
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| 38 | #ifdef PASS_JINJA |
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| 39 | |
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| 40 | {# -------------------------- Design notes ------------------------------ |
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| 41 | |
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[644] | 42 | The syntax |
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| 43 | {% call(ARGNAMES) macro(ARGS) %} |
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| 44 | ... |
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| 45 | {% endcall %} |
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| 46 | passes ARGS to macro ; this macro "calls" the body using the syntax 'caller(arg1,...)' ; these arguments |
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| 47 | are available in the body under the names ARGNAMES, as if it were a macro caller(ARGNAMES). |
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| 48 | |
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[615] | 49 | Using its optional argument 'options', forall_cells() sets variable 'flags' |
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| 50 | and passes it on to on_mesh() / on_edges() |
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| 51 | |
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| 52 | Similarly variable 'lrange' is passed from forall_cells to on_mesh() / on_egdes() |
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| 53 | |
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| 54 | -------------------------------------------------------------------------- #} |
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| 55 | |
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[653] | 56 | {# NB : degree = number of elements in stencil, for instance number of edges of primal cell #} |
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| 57 | {# define the degrees for which a special version of code is generated #} |
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| 58 | {% set degree_primal, degree_dual, degree_trisk = (4,5,6), (3,4), (4,10) %} |
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[644] | 59 | |
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[615] | 60 | {# ----------------------- SEQUENCE, FORALL ----------------------- #} |
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| 61 | |
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[685] | 62 | {% macro sequence_primal() -%} |
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[615] | 63 | !$OMP DO SCHEDULE(STATIC) |
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| 64 | DO ij=1,primal_num |
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[685] | 65 | {{ caller(body_primal, at_level_primal) }} |
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[615] | 66 | END DO |
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| 67 | !$OMP END DO |
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[685] | 68 | {%- endmacro %} |
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[615] | 69 | |
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[685] | 70 | {% macro sequence_edge() -%} |
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| 71 | {% set thecode = caller(body_edge, at_level_edge) %} |
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| 72 | !$OMP DO SCHEDULE(STATIC) |
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| 73 | DO edge=1,edge_num |
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| 74 | {{ 'ij_left = left(edge)' if 'CELL1' in thecode }} |
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| 75 | {{ 'ij_right = right(edge)' if 'CELL2' in thecode }} |
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| 76 | {{ 'ij_up = up(edge)' if 'VERTEX1' in thecode }} |
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| 77 | {{ 'ij_down = down(edge)' if 'VERTEX2' in thecode }} |
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| 78 | {{ thecode }} |
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| 79 | END DO |
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| 80 | !$OMP END DO |
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[615] | 81 | {%- endmacro %} |
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| 82 | |
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[685] | 83 | {% macro body_primal(range) -%} |
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[615] | 84 | {{ define('CELL','l,ij') }} |
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| 85 | DO l = {{ range }} |
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| 86 | {{ caller() }} |
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| 87 | END DO |
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| 88 | {{ undef('CELL') }} |
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| 89 | {%- endmacro %} |
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| 90 | |
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[685] | 91 | {% macro body_edge(range) -%} |
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| 92 | {% set thecode = caller() %} |
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| 93 | {{ define('EDGE', 'l,edge') }} |
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| 94 | {{ cdef(thecode, 'LE_DE', 'le_de(edge)') }} |
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| 95 | {{ cdef(thecode, 'SIGN', '1.') }} |
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| 96 | {{ cdef(thecode, 'CELL1', 'l,ij_left') }} |
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| 97 | {{ cdef(thecode, 'CELL2', 'l,ij_right') }} |
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| 98 | {{ cdef(thecode, 'VERTEX1', 'l,ij_down') }} |
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| 99 | {{ cdef(thecode, 'VERTEX2', 'l,ij_up') }} |
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| 100 | DO l = {{ range }} |
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| 101 | {{ thecode }} |
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| 102 | END DO |
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| 103 | {{ cundef(thecode, ('EDGE','LE_DE','SIGN','CELL1','CELL2','VERTEX1','VERTEX2') ) }} |
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| 104 | {%- endmacro %} |
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| 105 | |
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| 106 | {% macro at_level_primal(lev) -%} |
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| 107 | {{ define('CELL','%s,ij'%lev) }} |
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[615] | 108 | {{ caller() }} |
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| 109 | {{ undef('CELL') }} |
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| 110 | {%- endmacro %} |
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| 111 | |
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[685] | 112 | {% macro at_level_edge(lev) -%} |
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| 113 | {{ define('EDGE','%s,edge'%lev) }} |
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| 114 | {{ caller() }} |
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| 115 | {{ undef('EDGE') }} |
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| 116 | {%- endmacro %} |
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| 117 | |
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[615] | 118 | {% macro forall_cells(start='1', end='llm', options=[]) -%} |
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| 119 | {% set flags=[options] if options is string else options %} |
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| 120 | {{ caller((start,end),flags) }} |
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| 121 | {%- endmacro %} |
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| 122 | |
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[650] | 123 | {# ---------------------- PRELOAD STENCIL INDICES ---------------------- #} |
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[615] | 124 | |
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[647] | 125 | {% macro get_edges(thecode, mesh,degree) %} |
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| 126 | {% for iedge in range(1,degree+1) %} |
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[650] | 127 | {{ 'edge%d = %s_edge(%d,ij)'%(iedge,mesh,iedge) if 'EDGE' in thecode }} |
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[647] | 128 | {% endfor %} |
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| 129 | {% for iedge in range(1,degree+1) %} |
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[650] | 130 | {{ 'le_de%d = le_de(edge%d)'%(iedge,iedge) if 'LE_DE' in thecode }} |
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[647] | 131 | {% endfor %} |
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| 132 | {% for iedge in range(1,degree+1) %} |
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[650] | 133 | {{ 'sign%d = %s_ne(%d,ij)'%(iedge,mesh,iedge) if 'SIGN' in thecode }} |
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[647] | 134 | {% endfor %} |
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| 135 | {% for iedge in range(1,degree+1) %} |
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| 136 | {{ 'ij_up%d = up(edge%d)'%(iedge,iedge) if 'VERTEX1' in thecode }} |
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| 137 | {% endfor %} |
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| 138 | {% for iedge in range(1,degree+1) %} |
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| 139 | {{ 'ij_down%d = down(edge%d)'%(iedge,iedge) if 'VERTEX2' in thecode }} |
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| 140 | {% endfor %} |
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| 141 | {% endmacro %} |
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| 142 | |
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[650] | 143 | {% macro get_vertices(thecode, mesh,degree) %} |
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| 144 | {% for ivertex in range(1,degree+1) %} |
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| 145 | {{ 'vertex%d = %s_vertex(%d,ij)'%(ivertex,mesh,ivertex) if 'VERTEX' in thecode }} |
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| 146 | {% endfor %} |
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| 147 | {% endmacro %} |
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| 148 | |
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| 149 | {# ------------------------------ MESHES --------------------------- #} |
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| 150 | |
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[644] | 151 | {# argument 'code' is the body enclosed by ON_XXX ... END_BLOCK ; it takes arguments : mesh,degree=0 #} |
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| 152 | |
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| 153 | {% macro vloop_unroll(mesh, lrange, flags, code) %} |
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| 154 | |
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| 155 | {% set thecode, has_primal, has_dual, has_trisk, has_none = code(mesh), False, False, False, True %} |
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| 156 | |
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| 157 | {% if 'primal_deg' in thecode %} |
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| 158 | ! this VLOOP iterates over primal cell edges |
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| 159 | {% set has_primal, has_none = True,False %} |
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| 160 | {% endif %} |
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| 161 | {% if 'dual_deg' in thecode %} |
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| 162 | ! this VLOOP iterates over dual cell edges |
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| 163 | {% set has_dual,has_none = True,False %} |
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| 164 | {% endif %} |
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| 165 | {% if 'trisk_deg' in thecode %} |
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| 166 | ! this VLOOP iterates over the TRISK stencil |
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| 167 | {% set has_trisk,has_none = True,False %} |
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| 168 | {% endif %} |
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| 169 | |
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| 170 | {% if has_none %} |
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| 171 | {{ vloop(mesh, lrange, flags, code) }} |
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| 172 | {% endif %} |
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| 173 | |
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| 174 | {% if has_primal %} |
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| 175 | SELECT CASE(primal_deg(ij)) |
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[653] | 176 | {% for degree in degree_primal %} |
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| 177 | CASE({{ degree }}) |
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| 178 | {{ get_edges(thecode, mesh, degree) }} |
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| 179 | {{ vloop(mesh, lrange, flags, code, degree) }} |
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| 180 | {% endfor %} |
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[644] | 181 | CASE DEFAULT |
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| 182 | {{ vloop(mesh, lrange, flags, code) }} |
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| 183 | END SELECT |
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| 184 | {% endif %} |
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| 185 | |
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| 186 | {% if has_dual %} |
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| 187 | SELECT CASE(dual_deg(ij)) |
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[653] | 188 | {% for degree in degree_dual %} |
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| 189 | CASE({{ degree }}) |
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| 190 | {{ get_edges(thecode, mesh, degree) }} |
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| 191 | {{ get_vertices(thecode,mesh,degree) }} |
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| 192 | {{ vloop(mesh, lrange, flags, code, degree) }} |
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| 193 | {% endfor %} |
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[644] | 194 | CASE DEFAULT |
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| 195 | {{ vloop(mesh, lrange, flags, code) }} |
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| 196 | END SELECT |
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| 197 | {% endif %} |
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| 198 | |
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| 199 | {% if has_trisk %} |
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| 200 | SELECT CASE(trisk_deg(edge)) |
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[653] | 201 | {% for degree in degree_trisk %} |
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| 202 | CASE({{ degree }}) |
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| 203 | {{ vloop(mesh, lrange, flags, code, degree) }} |
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| 204 | {% endfor %} |
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[644] | 205 | CASE DEFAULT |
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| 206 | {{ vloop(mesh, lrange, flags, code) }} |
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| 207 | END SELECT |
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| 208 | {% endif %} |
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| 209 | |
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| 210 | {%- endmacro %} |
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| 211 | |
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| 212 | {% macro vloop(mesh, lrange, flags, code, degree=0) %} |
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| 213 | |
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[615] | 214 | {% set start,end = lrange %} |
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[644] | 215 | {% set thecode, is_top_layer, is_top_inter = code(mesh,degree), False, False %} |
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[615] | 216 | |
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| 217 | {{ define('IS_TOP_LAYER', '_FALSE_') }} |
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| 218 | {{ define('IS_TOP_INTERFACE', '_FALSE_') }} |
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| 219 | |
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| 220 | {% if 'IS_BOTTOM_LEVEL' in thecode or 'KDOWN' in thecode%} |
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| 221 | {# the code in the loop checks whether l==1, for the sake of performance |
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| 222 | we shall write special code for l=1 and start the loop at l=2 #} |
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| 223 | {{ define('IS_BOTTOM_LEVEL', '_TRUE_') }} |
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| 224 | {{ 'kdown = 1' if 'KDOWN' in thecode }} |
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| 225 | {{ 'kup = 1' if 'KUP' in thecode }} |
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| 226 | l=1 |
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| 227 | {{ thecode }} |
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| 228 | {% set start='2' %} |
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| 229 | {% endif %} |
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| 230 | |
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| 231 | {% if 'IS_TOP_LAYER' in thecode %} |
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| 232 | {{ 'ERROR : using IS_TOP_LAYER in a loop ending at l=llm+1' if end=='llm+1' }} |
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| 233 | {# the code checks whether l==llm, write special code for l=llm and end the loop at l=llm-1 #} |
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| 234 | {% set end, is_top_layer = 'llm-1', True %} |
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| 235 | {% endif %} |
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| 236 | |
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| 237 | {% if 'IS_TOP_INTERFACE' in thecode or 'KUP' in thecode %} |
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| 238 | {# the code checks whether l==llm+1, write special code for l=llm+1 and end the loop at l=llm #} |
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| 239 | {{ 'ERROR : using IS_TOP_INTERFACE in a loop ending at l=llm' if end=='llm' }} |
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| 240 | {% set end, is_top_inter ='llm', True %} |
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| 241 | {% endif %} |
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| 242 | |
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| 243 | {{ define('IS_BOTTOM_LEVEL', '_FALSE_') }} |
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[647] | 244 | !DIR$ SIMD |
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[615] | 245 | DO l = {{start}}, {{end}} |
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| 246 | {{ 'kdown = l-1' if 'KDOWN' in thecode }} |
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| 247 | {{ 'kup = l' if 'KUP' in thecode }} |
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| 248 | {{ thecode }} |
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| 249 | END DO |
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| 250 | |
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| 251 | {% if is_top_layer %} |
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| 252 | {{ define('IS_TOP_LAYER', '_TRUE_') }} |
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| 253 | {{ 'kdown = llm-1' if 'KDOWN' in thecode }} |
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| 254 | {{ 'kup = llm' if 'KUP' in thecode }} |
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| 255 | l=llm |
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| 256 | {{ thecode }} |
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| 257 | {% endif %} |
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| 258 | |
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| 259 | {% if is_top_inter %} |
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| 260 | {{ define('IS_TOP_INTERFACE', '_TRUE_') }} |
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| 261 | {{ 'kdown = llm' if 'KDOWN' in thecode }} |
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| 262 | {{ 'kup = llm' if 'KUP' in thecode }} |
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| 263 | l=llm+1 |
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| 264 | {{ thecode }} |
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| 265 | {% endif %} |
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| 266 | |
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| 267 | {% endmacro %} |
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| 268 | |
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| 269 | {% macro on_mesh(mesh,lrange,flags) -%} |
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| 270 | {{ define('CELL','l,ij') if mesh=='primal' }} |
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| 271 | {{ define('DUAL_CELL', 'l,ij') if mesh=='dual'}} |
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| 272 | !$OMP DO SCHEDULE(STATIC) |
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| 273 | DO ij = 1, {{ mesh }}_num |
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[644] | 274 | {{ vloop_unroll(mesh, lrange, flags, caller) }} |
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[615] | 275 | END DO |
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| 276 | !$OMP END DO |
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| 277 | {{ undef('CELL') }} |
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| 278 | {{ undef('DUAL_CELL') }} |
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| 279 | {%- endmacro %} |
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| 280 | |
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| 281 | {# ------------------------------ STENCILS --------------------------- #} |
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| 282 | |
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| 283 | {% macro on_edges(mesh,lrange,flags) -%} |
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| 284 | {% set thecode = caller(mesh) %} |
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| 285 | {{ define('EDGE', 'l,edge') }} |
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[650] | 286 | {{ cdef(thecode, 'LE_DE', 'le_de(edge)') }} |
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| 287 | {{ cdef(thecode, 'SIGN', '1.') }} |
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| 288 | {{ cdef(thecode, 'CELL1', 'l,ij_left') }} |
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| 289 | {{ cdef(thecode, 'CELL2', 'l,ij_right') }} |
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| 290 | {{ cdef(thecode, 'VERTEX1', 'l,ij_down') }} |
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| 291 | {{ cdef(thecode, 'VERTEX2', 'l,ij_up') }} |
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[615] | 292 | !$OMP DO SCHEDULE(STATIC) |
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| 293 | DO edge = 1, edge_num |
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| 294 | {{ 'ij_left = left(edge)' if 'CELL1' in thecode }} |
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| 295 | {{ 'ij_right = right(edge)' if 'CELL2' in thecode }} |
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| 296 | {{ 'ij_up = up(edge)' if 'VERTEX1' in thecode }} |
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| 297 | {{ 'ij_down = down(edge)' if 'VERTEX2' in thecode }} |
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[644] | 298 | {{ vloop_unroll(mesh, lrange, flags, caller) }} |
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[615] | 299 | END DO |
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| 300 | !$OMP END DO |
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[650] | 301 | {{ cundef(thecode, ('EDGE','LE_DE','SIGN','CELL1','CELL2','VERTEX1','VERTEX2') ) }} |
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[615] | 302 | {%- endmacro %} |
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| 303 | |
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[644] | 304 | {% macro forall_edges(mesh,degree) -%} |
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[615] | 305 | {% set thecode = caller() %} |
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[644] | 306 | |
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| 307 | {% if degree>1 %} |
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| 308 | {% for iedge in range(1,degree+1) %} |
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[650] | 309 | {{ cdef(thecode, 'EDGE', 'l,edge%d'%iedge) }} |
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| 310 | {{ cdef(thecode, 'SIGN', 'sign%d'%iedge) }} |
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| 311 | {{ cdef(thecode, 'LE_DE', 'le_de%d'%iedge) }} |
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| 312 | {{ cdef(thecode, 'VERTEX1', 'l,ij_up%d'%iedge) }} |
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| 313 | {{ cdef(thecode, 'VERTEX2', 'l,ij_down%d'%iedge) }} |
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[644] | 314 | {{ thecode }} |
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| 315 | {% endfor %} |
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| 316 | {% else %} |
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[650] | 317 | {{ cdef(thecode, 'EDGE', 'l,edge') }} |
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| 318 | {{ cdef(thecode, 'SIGN', mesh + '_ne(iedge,ij)') }} |
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| 319 | {{ cdef(thecode, 'LE_DE', 'le_de(edge)') }} |
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| 320 | {{ cdef(thecode, 'VERTEX1', 'l,ij_up') }} |
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| 321 | {{ cdef(thecode, 'VERTEX2', 'l,ij_down') }} |
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[615] | 322 | DO iedge = 1, {{ mesh }}_deg(ij) |
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| 323 | edge = {{ mesh }}_edge(iedge,ij) |
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[644] | 324 | {{ 'ij_up = up(edge)' if 'VERTEX1' in thecode }} |
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| 325 | {{ 'ij_down = down(edge)' if 'VERTEX2' in thecode }} |
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[615] | 326 | {{ thecode }} |
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| 327 | END DO |
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[644] | 328 | {% endif %} |
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[650] | 329 | {{ cundef(thecode, ('EDGE', 'SIGN', 'LE_DE', 'VERTEX1', 'VERTEX2') ) }} |
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[615] | 330 | {%- endmacro %} |
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| 331 | |
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[644] | 332 | {% macro forall_trisk(degree) -%} |
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| 333 | {% set thecode = caller() %} |
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[615] | 334 | {{ define('EDGE_TRISK', 'l,edge_trisk') }} |
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[644] | 335 | {% if degree>1 %} |
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| 336 | {% for itrisk in range(1,degree+1) %} |
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[647] | 337 | itrisk = {{ itrisk }} |
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[644] | 338 | edge_trisk = trisk({{ itrisk }},edge) |
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| 339 | {{ thecode }} |
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| 340 | {% endfor %} |
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| 341 | {% else %} |
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[615] | 342 | DO itrisk = 1, trisk_deg(edge) |
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| 343 | edge_trisk = trisk(itrisk,edge) |
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[644] | 344 | {{ thecode }} |
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[615] | 345 | END DO |
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[644] | 346 | {% endif %} |
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[615] | 347 | {{ undef('EDGE_TRISK') }} |
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| 348 | {%- endmacro %} |
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| 349 | |
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[644] | 350 | {% macro forall_vertices(mesh,degree) -%} |
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| 351 | {% set thecode = caller() %} |
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| 352 | {% if degree>1 %} |
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| 353 | {% for ivertex in range(1,degree+1) %} |
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[650] | 354 | {{ define('RIV2', 'Riv2(%d,ij)'%ivertex ) }} |
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| 355 | {{ define('VERTEX', 'l,vertex%d'%ivertex ) }} |
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[644] | 356 | {{ thecode }} |
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| 357 | {% endfor %} |
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| 358 | {% else %} |
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[650] | 359 | {{ define('RIV2', 'Riv2(ivertex,ij)') }} |
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| 360 | {{ define('VERTEX', 'l,vertex') }} |
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[615] | 361 | DO ivertex = 1, {{ mesh }}_deg(ij) |
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| 362 | vertex = {{ mesh }}_vertex(ivertex,ij) |
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[644] | 363 | {{ thecode }} |
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[615] | 364 | END DO |
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[644] | 365 | {% endif %} |
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[615] | 366 | {{ undef('VERTEX') }} |
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[650] | 367 | {{ undef('RIV2') }} |
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[615] | 368 | {%- endmacro %} |
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| 369 | |
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| 370 | {# --------------------------------------------------------- #} |
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| 371 | |
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| 372 | {% set llm='llm' %} |
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| 373 | |
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| 374 | {{ undef('SIGN') }} |
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| 375 | {{ undef('CELL') }} |
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| 376 | {{ undef('CELL1') }} |
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| 377 | {{ undef('CELL2') }} |
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| 378 | {{ undef('VERTEX1') }} |
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| 379 | {{ undef('VERTEX2') }} |
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| 380 | {{ undef('EDGE_TRISK') }} |
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| 381 | |
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| 382 | {# --------------------- END JINJA ------------------------- #} |
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| 383 | |
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| 384 | #endif |
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| 385 | |
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| 386 | #ifdef PASS_POST1 |
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| 387 | |
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| 388 | #define _TRUE_ (0==0) |
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| 389 | #define _FALSE_ (0==1) |
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| 390 | |
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| 391 | #define AI Ai(ij) |
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| 392 | #define AV Av(ij) |
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| 393 | #define FV fv(ij) |
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| 394 | #define WEE wee(itrisk,edge) |
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| 395 | #define edge_ne(iedge,ij) 1. |
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| 396 | #endif |
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| 397 | |
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| 398 | #ifdef PASS_POST2 |
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[685] | 399 | #define AT_LEVEL(l,ij,lev) lev,ij |
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[615] | 400 | #define KUP(l,ij) kup,ij |
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| 401 | #define KDOWN(l,ij) kdown,ij |
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| 402 | #define DOWN(l,ij) l-1,ij |
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| 403 | #define UP(l,ij) l+1,ij |
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| 404 | #define HIDX(l,ij) ij |
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| 405 | #define VIDX(l,ij) l |
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| 406 | #endif |
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