/* * Copyright 2018 Cerebras Systems * * Use of this software is governed by the MIT license * * Written by Sven Verdoolaege, * Cerebras Systems, 175 S San Antonio Rd, Los Altos, CA, USA */ #include /* Merge parameter "param" into the input dimension "i" of "obj". * * First plug in the parameter for the input dimension in "obj". * The drop the (now defunct) input dimension and * move the parameter in its original position. * Since dimension manipulations destroy spaces, modify the space * separately by only dropping the parameter. */ static __isl_give TYPE *FN(TYPE,merge_param)(__isl_take TYPE *obj, int i, int param) { isl_id *id; isl_aff *aff; isl_space *space; isl_multi_aff *ma; space = FN(TYPE,get_domain_space)(obj); id = isl_space_get_dim_id(space, isl_dim_param, param); aff = isl_aff_param_on_domain_space_id(isl_space_copy(space), id); space = isl_space_map_from_set(space); ma = isl_multi_aff_identity(space); ma = isl_multi_aff_set_aff(ma, i, aff); obj = FN(TYPE,pullback_multi_aff)(obj, ma); space = FN(TYPE,get_domain_space)(obj); obj = FN(TYPE,drop_dims)(obj, isl_dim_in, i, 1); obj = FN(TYPE,move_dims)(obj, isl_dim_in, i, isl_dim_param, param, 1); space = isl_space_drop_dims(space, isl_dim_param, param, 1); obj = FN(TYPE,reset_domain_space)(obj, space); return obj; } /* Given a tuple of identifiers "tuple" that correspond * to the initial input dimensions of "obj", * if any of those identifiers appear as parameters * in "obj", then equate those parameters with the corresponding * input dimensions and project out the parameters. * The result therefore has no such parameters. */ static __isl_give TYPE *FN(TYPE,equate_initial_params)(__isl_take TYPE *obj, __isl_keep isl_multi_id *tuple) { int i; isl_size n; n = isl_multi_id_size(tuple); if (n < 0) return FN(TYPE,free)(obj); for (i = 0; i < n; ++i) { isl_id *id; int pos; id = isl_multi_id_get_at(tuple, i); if (!id) return FN(TYPE,free)(obj); pos = FN(TYPE,find_dim_by_id)(obj, isl_dim_param, id); isl_id_free(id); if (pos < 0) continue; obj = FN(TYPE,merge_param)(obj, i, pos); } return obj; } /* Given a tuple of identifiers "tuple" in a space that corresponds * to the domain of "obj", if any of those identifiers appear as parameters * in "obj", then equate those parameters with the corresponding * input dimensions and project out the parameters. * The result therefore has no such parameters. */ static __isl_give TYPE *FN(TYPE,equate_domain_params)(__isl_take TYPE *obj, __isl_keep isl_multi_id *tuple) { isl_stat r; isl_space *obj_space, *tuple_space; obj_space = FN(TYPE,get_space)(obj); tuple_space = isl_multi_id_peek_space(tuple); r = isl_space_check_domain_tuples(tuple_space, obj_space); isl_space_free(obj_space); if (r < 0) return FN(TYPE,free)(obj); return FN(TYPE,equate_initial_params)(obj, tuple); } /* Bind the domain dimensions of the function "obj" to parameters * with identifiers specified by "tuple", living in the same space * as the domain of "obj". * * If no parameters with these identifiers appear in "obj" already, * then the domain dimensions are simply reinterpreted as parameters. * Otherwise, the parameters are first equated to the corresponding * domain dimensions. */ __isl_give TYPE *FN(TYPE,bind_domain)(__isl_take TYPE *obj, __isl_take isl_multi_id *tuple) { isl_space *space; obj = FN(TYPE,equate_domain_params)(obj, tuple); space = FN(TYPE,get_space)(obj); space = isl_space_bind_map_domain(space, tuple); isl_multi_id_free(tuple); obj = FN(TYPE,reset_space)(obj, space); return obj; } /* Given a tuple of identifiers "tuple" in a space that corresponds * to the domain of the wrapped relation in the domain of "obj", * if any of those identifiers appear as parameters * in "obj", then equate those parameters with the corresponding * input dimensions and project out the parameters. * The result therefore has no such parameters. */ static __isl_give TYPE *FN(TYPE,equate_domain_wrapped_domain_params)( __isl_take TYPE *obj, __isl_keep isl_multi_id *tuple) { isl_stat r; isl_space *obj_space, *tuple_space; obj_space = FN(TYPE,get_space)(obj); tuple_space = isl_multi_id_peek_space(tuple); r = isl_space_check_domain_wrapped_domain_tuples(tuple_space, obj_space); isl_space_free(obj_space); if (r < 0) return FN(TYPE,free)(obj); return FN(TYPE,equate_initial_params)(obj, tuple); } /* Given a function living in a space of the form [A -> B] -> C and * a tuple of identifiers in A, bind the domain dimensions of the relation * wrapped in the domain of "obj" with identifiers specified by "tuple", * returning a function in the space B -> C. * * If no parameters with these identifiers appear in "obj" already, * then the domain dimensions are simply reinterpreted as parameters. * Otherwise, the parameters are first equated to the corresponding * domain dimensions. */ __isl_give TYPE *FN(TYPE,bind_domain_wrapped_domain)(__isl_take TYPE *obj, __isl_take isl_multi_id *tuple) { isl_space *space; obj = FN(TYPE,equate_domain_wrapped_domain_params)(obj, tuple); space = FN(TYPE,get_space)(obj); space = isl_space_bind_domain_wrapped_domain(space, tuple); isl_multi_id_free(tuple); obj = FN(TYPE,reset_space)(obj, space); return obj; }