pn2adg.cc: edge_name: allocate enough space for edge name
[ppn.git] / size.cc
blob828fef16a5612a4b694e9866dd4392f3f324df4b
1 #include <iostream>
2 #include <sstream>
3 #include <stdlib.h>
4 #include <unistd.h>
5 #include <isl/val.h>
6 #include <isl/space.h>
7 #include <isl/set.h>
8 #include <isl/map.h>
9 #include <isl/point.h>
10 #include <isl/polynomial.h>
11 #include <isl/printer.h>
12 #include <barvinok/isl.h>
13 #include "size.h"
14 #include "size_bernstein.h"
15 #include "size_simulate.h"
16 #include "size_options.h"
17 #include "config.h"
19 namespace size {
21 using std::cerr;
22 using std::endl;
23 using std::ostream;
25 #ifndef USE_SIZE_SIMULATE
26 int selfloop_size_simulate(__isl_take isl_map *dep, __isl_take isl_set *read)
28 isl_map_free(dep);
29 isl_set_free(read);
30 return -1;
32 #endif
34 static bool is_rectangular_dependence(__isl_keep isl_map *dep)
36 int ok;
37 isl_set *dom;
39 ok = isl_map_is_translation(dep);
40 assert(ok >= 0);
41 if (!ok)
42 return false;
44 dom = isl_map_domain(isl_map_copy(dep));
45 ok = isl_set_is_box(dom);
46 isl_set_free(dom);
47 assert(ok >= 0);
49 return ok;
52 /* Compute the number of tokens in the FIFO at the reference point(s) ref.
53 * That is, the number of dependences that have started but not finished
54 * before any point in ref. Note that the same read iteration may
55 * depend on several write iterations, so we cannot simply count the
56 * number of writes and reads and take the differences, as the total
57 * number of reads may be smaller than the total number of writes.
58 * Instead, we set up two mappings between the reference point
59 * and the dependences, one where the write happens before the
60 * reference point and one where the read happens before the reference
61 * point. We then take the set difference and then count the number
62 * of elements in this difference.
64 isl_pw_qpolynomial *selfloop_tokens_in_fifo(__isl_take isl_map *dep,
65 __isl_take isl_set *ref)
67 int d;
68 isl_set *dep_set;
69 isl_map *read_before_ref;
70 isl_map *write_before_ref;
72 dep = isl_map_make_disjoint(dep);
73 ref = isl_set_make_disjoint(ref);
75 d = isl_map_dim(dep, isl_dim_in);
76 dep = isl_map_move_dims(dep, isl_dim_in, d, isl_dim_out, 0, d);
77 dep_set = isl_map_domain(dep);
79 read_before_ref = isl_map_lex_gt(isl_set_get_space(ref));
80 read_before_ref = isl_map_intersect_domain(read_before_ref, ref);
81 write_before_ref = isl_map_copy(read_before_ref);
83 read_before_ref = isl_map_insert_dims(read_before_ref, isl_dim_out, 0, d);
84 write_before_ref = isl_map_add_dims(write_before_ref, isl_dim_out, d);
86 read_before_ref = isl_map_intersect_range(read_before_ref,
87 isl_set_copy(dep_set));
88 write_before_ref = isl_map_intersect_range(write_before_ref, dep_set);
90 write_before_ref = isl_map_subtract(write_before_ref, read_before_ref);
92 return isl_map_card(write_before_ref);
95 /* Compute the maximum of the difference in number of writes and number
96 * of reads before any read. The difference is equal to the number
97 * of token in the FIFO and the maximum is the buffer size of the FIFO.
98 * The procedure assumes that the dependence is non-parametric and
99 * may actually iterate over all reads to compute the maximum.
101 static int selfloop_size_full(__isl_take isl_map *dep,
102 __isl_take isl_set *ref)
104 isl_pw_qpolynomial *qp_diff;
105 isl_val *v;
106 int size;
108 qp_diff = selfloop_tokens_in_fifo(dep, ref);
110 v = isl_pw_qpolynomial_max(qp_diff);
111 assert(isl_val_is_int(v));
113 size = isl_val_get_num_si(v);
115 isl_val_free(v);
117 return size;
120 enumerator::operator pdg::enumerator *() const
122 switch (type) {
123 case fixed:
124 return new pdg::enumerator(v);
125 case qp:
126 case fold: {
127 isl_printer *printer;
128 char *str;
129 string *s;
130 printer = isl_printer_to_str(pdg->get_isl_ctx());
131 printer = isl_printer_set_output_format(printer, ISL_FORMAT_C);
132 if (type == qp)
133 printer = isl_printer_print_pw_qpolynomial(printer, pwqp);
134 else
135 printer = isl_printer_print_pw_qpolynomial_fold(printer, pwf);
136 str = isl_printer_get_str(printer);
137 s = new string(str);
138 isl_printer_free(printer);
139 free(str);
140 return new pdg::enumerator(s);
142 default:
143 assert(0);
147 integer *enumerator::evaluate() const
149 switch (type) {
150 case fixed:
151 return new integer(v);
152 case qp:
153 case fold: {
154 isl_space *dim;
155 isl_point *pnt;
156 isl_val *n;
157 int v;
159 dim = isl_space_params_alloc(pdg->get_isl_ctx(), pdg->params.size());
160 isl_dim_set_parameter_names(dim, pdg->params);
161 pnt = isl_point_zero(dim);
162 for (int i = 0; i < pdg->params.size(); ++i) {
163 int n = pdg->params[i]->value->v;
164 pnt = isl_point_add_ui(pnt, isl_dim_param, i, n);
166 if (type == enumerator::qp)
167 n = isl_pw_qpolynomial_eval(
168 isl_pw_qpolynomial_copy(pwqp), pnt);
169 else
170 n = isl_pw_qpolynomial_fold_eval(
171 isl_pw_qpolynomial_fold_copy(pwf), pnt);
172 n = isl_val_floor(n);
173 v = isl_val_get_num_si(n);
174 isl_val_free(n);
175 return new integer(v);
177 default:
178 assert(0);
180 return NULL;
183 size::enumerator *selfloop_size(pdg::PDG *pdg, __isl_take isl_map *dep,
184 size_options *options)
186 int nparam = isl_map_dim(dep, isl_dim_param);
187 isl_set *read;
189 assert(isl_map_dim(dep, isl_dim_in) == isl_map_dim(dep, isl_dim_out));
191 read = isl_map_range(isl_map_copy(dep));
193 bool rect = !nparam && is_rectangular_dependence(dep);
195 size::enumerator *e = NULL;
196 if (!nparam && options->flags != SIZE_BERNSTEIN) {
197 int maxsize;
198 if (options->flags == SIZE_SIMULATE) {
199 maxsize = selfloop_size_simulate(dep, read);
200 } else if (!rect)
201 maxsize = selfloop_size_full(dep, read);
202 else {
203 isl_set *ref = isl_set_lexmin(read);
204 maxsize = selfloop_size_full(dep, ref);
206 e = new enumerator(maxsize);
207 } else {
208 e = selfloop_size_bernstein(pdg, dep, read);
211 return e;