xref: /dflybsd-src/contrib/gcc-4.7/gcc/graphite-poly.h (revision 04febcfb30580676d3e95f58a16c5137ee478b32) 
1*e4b17023SJohn Marino /* Graphite polyhedral representation.
2*e4b17023SJohn Marino    Copyright (C) 2009, 2010 Free Software Foundation, Inc.
3*e4b17023SJohn Marino    Contributed by Sebastian Pop <sebastian.pop@amd.com> and
4*e4b17023SJohn Marino    Tobias Grosser <grosser@fim.uni-passau.de>.
5*e4b17023SJohn Marino 
6*e4b17023SJohn Marino This file is part of GCC.
7*e4b17023SJohn Marino 
8*e4b17023SJohn Marino GCC is free software; you can redistribute it and/or modify
9*e4b17023SJohn Marino it under the terms of the GNU General Public License as published by
10*e4b17023SJohn Marino the Free Software Foundation; either version 3, or (at your option)
11*e4b17023SJohn Marino any later version.
12*e4b17023SJohn Marino 
13*e4b17023SJohn Marino GCC is distributed in the hope that it will be useful,
14*e4b17023SJohn Marino but WITHOUT ANY WARRANTY; without even the implied warranty of
15*e4b17023SJohn Marino MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16*e4b17023SJohn Marino GNU General Public License for more details.
17*e4b17023SJohn Marino 
18*e4b17023SJohn Marino You should have received a copy of the GNU General Public License
19*e4b17023SJohn Marino along with GCC; see the file COPYING3.  If not see
20*e4b17023SJohn Marino <http://www.gnu.org/licenses/>.  */
21*e4b17023SJohn Marino 
22*e4b17023SJohn Marino #ifndef GCC_GRAPHITE_POLY_H
23*e4b17023SJohn Marino #define GCC_GRAPHITE_POLY_H
24*e4b17023SJohn Marino 
25*e4b17023SJohn Marino typedef struct poly_dr *poly_dr_p;
26*e4b17023SJohn Marino DEF_VEC_P(poly_dr_p);
27*e4b17023SJohn Marino DEF_VEC_ALLOC_P (poly_dr_p, heap);
28*e4b17023SJohn Marino 
29*e4b17023SJohn Marino typedef struct poly_bb *poly_bb_p;
30*e4b17023SJohn Marino DEF_VEC_P(poly_bb_p);
31*e4b17023SJohn Marino DEF_VEC_ALLOC_P (poly_bb_p, heap);
32*e4b17023SJohn Marino 
33*e4b17023SJohn Marino typedef struct scop *scop_p;
34*e4b17023SJohn Marino DEF_VEC_P(scop_p);
35*e4b17023SJohn Marino DEF_VEC_ALLOC_P (scop_p, heap);
36*e4b17023SJohn Marino 
37*e4b17023SJohn Marino typedef ppl_dimension_type graphite_dim_t;
38*e4b17023SJohn Marino 
39*e4b17023SJohn Marino static inline graphite_dim_t pbb_dim_iter_domain (const struct poly_bb *);
40*e4b17023SJohn Marino static inline graphite_dim_t pbb_nb_params (const struct poly_bb *);
41*e4b17023SJohn Marino static inline graphite_dim_t scop_nb_params (scop_p);
42*e4b17023SJohn Marino 
43*e4b17023SJohn Marino /* A data reference can write or read some memory or we
44*e4b17023SJohn Marino    just know it may write some memory.  */
45*e4b17023SJohn Marino enum poly_dr_type
46*e4b17023SJohn Marino {
47*e4b17023SJohn Marino   PDR_READ,
48*e4b17023SJohn Marino   /* PDR_MAY_READs are represented using PDR_READS.  This does not
49*e4b17023SJohn Marino      limit the expressiveness.  */
50*e4b17023SJohn Marino   PDR_WRITE,
51*e4b17023SJohn Marino   PDR_MAY_WRITE
52*e4b17023SJohn Marino };
53*e4b17023SJohn Marino 
54*e4b17023SJohn Marino struct poly_dr
55*e4b17023SJohn Marino {
56*e4b17023SJohn Marino   /* An identifier for this PDR.  */
57*e4b17023SJohn Marino   int id;
58*e4b17023SJohn Marino 
59*e4b17023SJohn Marino   /* The number of data refs identical to this one in the PBB.  */
60*e4b17023SJohn Marino   int nb_refs;
61*e4b17023SJohn Marino 
62*e4b17023SJohn Marino   /* A pointer to compiler's data reference description.  */
63*e4b17023SJohn Marino   void *compiler_dr;
64*e4b17023SJohn Marino 
65*e4b17023SJohn Marino   /* A pointer to the PBB that contains this data reference.  */
66*e4b17023SJohn Marino   poly_bb_p pbb;
67*e4b17023SJohn Marino 
68*e4b17023SJohn Marino   enum poly_dr_type type;
69*e4b17023SJohn Marino 
70*e4b17023SJohn Marino   /* The access polyhedron contains the polyhedral space this data
71*e4b17023SJohn Marino      reference will access.
72*e4b17023SJohn Marino 
73*e4b17023SJohn Marino      The polyhedron contains these dimensions:
74*e4b17023SJohn Marino 
75*e4b17023SJohn Marino      - The alias set (a):
76*e4b17023SJohn Marino      Every memory access is classified in at least one alias set.
77*e4b17023SJohn Marino 
78*e4b17023SJohn Marino      - The subscripts (s_0, ..., s_n):
79*e4b17023SJohn Marino      The memory is accessed using zero or more subscript dimensions.
80*e4b17023SJohn Marino 
81*e4b17023SJohn Marino      - The iteration domain (variables and parameters)
82*e4b17023SJohn Marino 
83*e4b17023SJohn Marino      Do not hardcode the dimensions.  Use the following accessor functions:
84*e4b17023SJohn Marino      - pdr_alias_set_dim
85*e4b17023SJohn Marino      - pdr_subscript_dim
86*e4b17023SJohn Marino      - pdr_iterator_dim
87*e4b17023SJohn Marino      - pdr_parameter_dim
88*e4b17023SJohn Marino 
89*e4b17023SJohn Marino      Example:
90*e4b17023SJohn Marino 
91*e4b17023SJohn Marino      | int A[1335][123];
92*e4b17023SJohn Marino      | int *p = malloc ();
93*e4b17023SJohn Marino      |
94*e4b17023SJohn Marino      | k = ...
95*e4b17023SJohn Marino      | for i
96*e4b17023SJohn Marino      |   {
97*e4b17023SJohn Marino      |     if (unknown_function ())
98*e4b17023SJohn Marino      |       p = A;
99*e4b17023SJohn Marino      |       ... = p[?][?];
100*e4b17023SJohn Marino      | 	   for j
101*e4b17023SJohn Marino      |       A[i][j+k] = m;
102*e4b17023SJohn Marino      |   }
103*e4b17023SJohn Marino 
104*e4b17023SJohn Marino      The data access A[i][j+k] in alias set "5" is described like this:
105*e4b17023SJohn Marino 
106*e4b17023SJohn Marino      | i   j   k   a  s0  s1   1
107*e4b17023SJohn Marino      | 0   0   0   1   0   0  -5     =  0
108*e4b17023SJohn Marino      |-1   0   0   0   1   0   0     =  0
109*e4b17023SJohn Marino      | 0  -1  -1   0   0   1   0     =  0
110*e4b17023SJohn Marino      | 0   0   0   0   1   0   0     >= 0  # The last four lines describe the
111*e4b17023SJohn Marino      | 0   0   0   0   0   1   0     >= 0  # array size.
112*e4b17023SJohn Marino      | 0   0   0   0  -1   0 1335    >= 0
113*e4b17023SJohn Marino      | 0   0   0   0   0  -1 123     >= 0
114*e4b17023SJohn Marino 
115*e4b17023SJohn Marino      The pointer "*p" in alias set "5" and "7" is described as a union of
116*e4b17023SJohn Marino      polyhedron:
117*e4b17023SJohn Marino 
118*e4b17023SJohn Marino 
119*e4b17023SJohn Marino      | i   k   a  s0   1
120*e4b17023SJohn Marino      | 0   0   1   0  -5   =  0
121*e4b17023SJohn Marino      | 0   0   0   1   0   >= 0
122*e4b17023SJohn Marino 
123*e4b17023SJohn Marino      "or"
124*e4b17023SJohn Marino 
125*e4b17023SJohn Marino      | i   k   a  s0   1
126*e4b17023SJohn Marino      | 0   0   1   0  -7   =  0
127*e4b17023SJohn Marino      | 0   0   0   1   0   >= 0
128*e4b17023SJohn Marino 
129*e4b17023SJohn Marino      "*p" accesses all of the object allocated with 'malloc'.
130*e4b17023SJohn Marino 
131*e4b17023SJohn Marino      The scalar data access "m" is represented as an array with zero subscript
132*e4b17023SJohn Marino      dimensions.
133*e4b17023SJohn Marino 
134*e4b17023SJohn Marino      | i   j   k   a   1
135*e4b17023SJohn Marino      | 0   0   0  -1   15  = 0
136*e4b17023SJohn Marino 
137*e4b17023SJohn Marino      The difference between the graphite internal format for access data and
138*e4b17023SJohn Marino      the OpenSop format is in the order of columns.
139*e4b17023SJohn Marino      Instead of having:
140*e4b17023SJohn Marino 
141*e4b17023SJohn Marino      | i   j   k   a  s0  s1   1
142*e4b17023SJohn Marino      | 0   0   0   1   0   0  -5     =  0
143*e4b17023SJohn Marino      |-1   0   0   0   1   0   0     =  0
144*e4b17023SJohn Marino      | 0  -1  -1   0   0   1   0     =  0
145*e4b17023SJohn Marino      | 0   0   0   0   1   0   0     >= 0  # The last four lines describe the
146*e4b17023SJohn Marino      | 0   0   0   0   0   1   0     >= 0  # array size.
147*e4b17023SJohn Marino      | 0   0   0   0  -1   0 1335    >= 0
148*e4b17023SJohn Marino      | 0   0   0   0   0  -1 123     >= 0
149*e4b17023SJohn Marino 
150*e4b17023SJohn Marino      In OpenScop we have:
151*e4b17023SJohn Marino 
152*e4b17023SJohn Marino      | a  s0  s1   i   j   k   1
153*e4b17023SJohn Marino      | 1   0   0   0   0   0  -5     =  0
154*e4b17023SJohn Marino      | 0   1   0  -1   0   0   0     =  0
155*e4b17023SJohn Marino      | 0   0   1   0  -1  -1   0     =  0
156*e4b17023SJohn Marino      | 0   1   0   0   0   0   0     >= 0  # The last four lines describe the
157*e4b17023SJohn Marino      | 0   0   1   0   0   0   0     >= 0  # array size.
158*e4b17023SJohn Marino      | 0  -1   0   0   0   0 1335    >= 0
159*e4b17023SJohn Marino      | 0   0  -1   0   0   0 123     >= 0
160*e4b17023SJohn Marino 
161*e4b17023SJohn Marino      The OpenScop access function is printed as follows:
162*e4b17023SJohn Marino 
163*e4b17023SJohn Marino      | 1  # The number of disjunct components in a union of access functions.
164*e4b17023SJohn Marino      | R C O I L P  # Described bellow.
165*e4b17023SJohn Marino      | a  s0  s1   i   j   k   1
166*e4b17023SJohn Marino      | 1   0   0   0   0   0  -5     =  0
167*e4b17023SJohn Marino      | 0   1   0  -1   0   0   0     =  0
168*e4b17023SJohn Marino      | 0   0   1   0  -1  -1   0     =  0
169*e4b17023SJohn Marino      | 0   1   0   0   0   0   0     >= 0  # The last four lines describe the
170*e4b17023SJohn Marino      | 0   0   1   0   0   0   0     >= 0  # array size.
171*e4b17023SJohn Marino      | 0  -1   0   0   0   0 1335    >= 0
172*e4b17023SJohn Marino      | 0   0  -1   0   0   0 123     >= 0
173*e4b17023SJohn Marino 
174*e4b17023SJohn Marino      Where:
175*e4b17023SJohn Marino      - R: Number of rows.
176*e4b17023SJohn Marino      - C: Number of columns.
177*e4b17023SJohn Marino      - O: Number of output dimensions = alias set + number of subscripts.
178*e4b17023SJohn Marino      - I: Number of input dimensions (iterators).
179*e4b17023SJohn Marino      - L: Number of local (existentially quantified) dimensions.
180*e4b17023SJohn Marino      - P: Number of parameters.
181*e4b17023SJohn Marino 
182*e4b17023SJohn Marino      In the example, the vector "R C O I L P" is "7 7 3 2 0 1".  */
183*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_t accesses;
184*e4b17023SJohn Marino 
185*e4b17023SJohn Marino   /* Data reference's base object set number, we must assure 2 pdrs are in the
186*e4b17023SJohn Marino      same base object set before dependency checking.  */
187*e4b17023SJohn Marino   int dr_base_object_set;
188*e4b17023SJohn Marino 
189*e4b17023SJohn Marino   /* The number of subscripts.  */
190*e4b17023SJohn Marino   graphite_dim_t nb_subscripts;
191*e4b17023SJohn Marino };
192*e4b17023SJohn Marino 
193*e4b17023SJohn Marino #define PDR_ID(PDR) (PDR->id)
194*e4b17023SJohn Marino #define PDR_NB_REFS(PDR) (PDR->nb_refs)
195*e4b17023SJohn Marino #define PDR_CDR(PDR) (PDR->compiler_dr)
196*e4b17023SJohn Marino #define PDR_PBB(PDR) (PDR->pbb)
197*e4b17023SJohn Marino #define PDR_TYPE(PDR) (PDR->type)
198*e4b17023SJohn Marino #define PDR_ACCESSES(PDR) (PDR->accesses)
199*e4b17023SJohn Marino #define PDR_BASE_OBJECT_SET(PDR) (PDR->dr_base_object_set)
200*e4b17023SJohn Marino #define PDR_NB_SUBSCRIPTS(PDR) (PDR->nb_subscripts)
201*e4b17023SJohn Marino 
202*e4b17023SJohn Marino void new_poly_dr (poly_bb_p, int, ppl_Pointset_Powerset_C_Polyhedron_t,
203*e4b17023SJohn Marino 		  enum poly_dr_type, void *, graphite_dim_t);
204*e4b17023SJohn Marino void free_poly_dr (poly_dr_p);
205*e4b17023SJohn Marino void debug_pdr (poly_dr_p, int);
206*e4b17023SJohn Marino void print_pdr (FILE *, poly_dr_p, int);
207*e4b17023SJohn Marino static inline scop_p pdr_scop (poly_dr_p pdr);
208*e4b17023SJohn Marino 
209*e4b17023SJohn Marino /* The dimension of the PDR_ACCESSES polyhedron of PDR.  */
210*e4b17023SJohn Marino 
211*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_dim(poly_dr_p pdr)212*e4b17023SJohn Marino pdr_dim (poly_dr_p pdr)
213*e4b17023SJohn Marino {
214*e4b17023SJohn Marino   ppl_dimension_type dim;
215*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_space_dimension (PDR_ACCESSES (pdr),
216*e4b17023SJohn Marino 						      &dim);
217*e4b17023SJohn Marino   return dim;
218*e4b17023SJohn Marino }
219*e4b17023SJohn Marino 
220*e4b17023SJohn Marino /* The dimension of the iteration domain of the scop of PDR.  */
221*e4b17023SJohn Marino 
222*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_dim_iter_domain(poly_dr_p pdr)223*e4b17023SJohn Marino pdr_dim_iter_domain (poly_dr_p pdr)
224*e4b17023SJohn Marino {
225*e4b17023SJohn Marino   return pbb_dim_iter_domain (PDR_PBB (pdr));
226*e4b17023SJohn Marino }
227*e4b17023SJohn Marino 
228*e4b17023SJohn Marino /* The number of parameters of the scop of PDR.  */
229*e4b17023SJohn Marino 
230*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_nb_params(poly_dr_p pdr)231*e4b17023SJohn Marino pdr_nb_params (poly_dr_p pdr)
232*e4b17023SJohn Marino {
233*e4b17023SJohn Marino   return scop_nb_params (pdr_scop (pdr));
234*e4b17023SJohn Marino }
235*e4b17023SJohn Marino 
236*e4b17023SJohn Marino /* The dimension of the alias set in PDR.  */
237*e4b17023SJohn Marino 
238*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_alias_set_dim(poly_dr_p pdr)239*e4b17023SJohn Marino pdr_alias_set_dim (poly_dr_p pdr)
240*e4b17023SJohn Marino {
241*e4b17023SJohn Marino   poly_bb_p pbb = PDR_PBB (pdr);
242*e4b17023SJohn Marino 
243*e4b17023SJohn Marino   return pbb_dim_iter_domain (pbb) + pbb_nb_params (pbb);
244*e4b17023SJohn Marino }
245*e4b17023SJohn Marino 
246*e4b17023SJohn Marino /* The dimension in PDR containing subscript S.  */
247*e4b17023SJohn Marino 
248*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_subscript_dim(poly_dr_p pdr,graphite_dim_t s)249*e4b17023SJohn Marino pdr_subscript_dim (poly_dr_p pdr, graphite_dim_t s)
250*e4b17023SJohn Marino {
251*e4b17023SJohn Marino   poly_bb_p pbb = PDR_PBB (pdr);
252*e4b17023SJohn Marino 
253*e4b17023SJohn Marino   return pbb_dim_iter_domain (pbb) + pbb_nb_params (pbb) + 1 + s;
254*e4b17023SJohn Marino }
255*e4b17023SJohn Marino 
256*e4b17023SJohn Marino /* The dimension in PDR containing the loop iterator ITER.  */
257*e4b17023SJohn Marino 
258*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_iterator_dim(poly_dr_p pdr ATTRIBUTE_UNUSED,graphite_dim_t iter)259*e4b17023SJohn Marino pdr_iterator_dim (poly_dr_p pdr ATTRIBUTE_UNUSED, graphite_dim_t iter)
260*e4b17023SJohn Marino {
261*e4b17023SJohn Marino   return iter;
262*e4b17023SJohn Marino }
263*e4b17023SJohn Marino 
264*e4b17023SJohn Marino /* The dimension in PDR containing parameter PARAM.  */
265*e4b17023SJohn Marino 
266*e4b17023SJohn Marino static inline ppl_dimension_type
pdr_parameter_dim(poly_dr_p pdr,graphite_dim_t param)267*e4b17023SJohn Marino pdr_parameter_dim (poly_dr_p pdr, graphite_dim_t param)
268*e4b17023SJohn Marino {
269*e4b17023SJohn Marino   poly_bb_p pbb = PDR_PBB (pdr);
270*e4b17023SJohn Marino 
271*e4b17023SJohn Marino   return pbb_dim_iter_domain (pbb) + param;
272*e4b17023SJohn Marino }
273*e4b17023SJohn Marino 
274*e4b17023SJohn Marino /* Returns true when PDR is a "read".  */
275*e4b17023SJohn Marino 
276*e4b17023SJohn Marino static inline bool
pdr_read_p(poly_dr_p pdr)277*e4b17023SJohn Marino pdr_read_p (poly_dr_p pdr)
278*e4b17023SJohn Marino {
279*e4b17023SJohn Marino   return PDR_TYPE (pdr) == PDR_READ;
280*e4b17023SJohn Marino }
281*e4b17023SJohn Marino 
282*e4b17023SJohn Marino /* Returns true when PDR is a "write".  */
283*e4b17023SJohn Marino 
284*e4b17023SJohn Marino static inline bool
pdr_write_p(poly_dr_p pdr)285*e4b17023SJohn Marino pdr_write_p (poly_dr_p pdr)
286*e4b17023SJohn Marino {
287*e4b17023SJohn Marino   return PDR_TYPE (pdr) == PDR_WRITE;
288*e4b17023SJohn Marino }
289*e4b17023SJohn Marino 
290*e4b17023SJohn Marino /* Returns true when PDR is a "may write".  */
291*e4b17023SJohn Marino 
292*e4b17023SJohn Marino static inline bool
pdr_may_write_p(poly_dr_p pdr)293*e4b17023SJohn Marino pdr_may_write_p (poly_dr_p pdr)
294*e4b17023SJohn Marino {
295*e4b17023SJohn Marino   return PDR_TYPE (pdr) == PDR_MAY_WRITE;
296*e4b17023SJohn Marino }
297*e4b17023SJohn Marino 
298*e4b17023SJohn Marino /* Return true when PDR1 and PDR2 are similar data accesses: they have
299*e4b17023SJohn Marino    the same base array, and the same access functions.  */
300*e4b17023SJohn Marino 
301*e4b17023SJohn Marino static inline bool
same_pdr_p(poly_dr_p pdr1,poly_dr_p pdr2)302*e4b17023SJohn Marino same_pdr_p (poly_dr_p pdr1, poly_dr_p pdr2)
303*e4b17023SJohn Marino {
304*e4b17023SJohn Marino   return PDR_NB_SUBSCRIPTS (pdr1) == PDR_NB_SUBSCRIPTS (pdr2)
305*e4b17023SJohn Marino     && PDR_BASE_OBJECT_SET (pdr1) == PDR_BASE_OBJECT_SET (pdr2);
306*e4b17023SJohn Marino }
307*e4b17023SJohn Marino 
308*e4b17023SJohn Marino typedef struct poly_scattering *poly_scattering_p;
309*e4b17023SJohn Marino 
310*e4b17023SJohn Marino struct poly_scattering
311*e4b17023SJohn Marino {
312*e4b17023SJohn Marino   /* The scattering function containing the transformations: the
313*e4b17023SJohn Marino      layout of this polyhedron is: T|I|G with T the transform
314*e4b17023SJohn Marino      scattering, I the iteration domain, G the context parameters.  */
315*e4b17023SJohn Marino   ppl_Polyhedron_t scattering;
316*e4b17023SJohn Marino 
317*e4b17023SJohn Marino   /* The number of local variables.  */
318*e4b17023SJohn Marino   int nb_local_variables;
319*e4b17023SJohn Marino 
320*e4b17023SJohn Marino   /* The number of scattering dimensions.  */
321*e4b17023SJohn Marino   int nb_scattering;
322*e4b17023SJohn Marino };
323*e4b17023SJohn Marino 
324*e4b17023SJohn Marino /* POLY_BB represents a blackbox in the polyhedral model.  */
325*e4b17023SJohn Marino 
326*e4b17023SJohn Marino struct poly_bb
327*e4b17023SJohn Marino {
328*e4b17023SJohn Marino   /* Pointer to a basic block or a statement in the compiler.  */
329*e4b17023SJohn Marino   void *black_box;
330*e4b17023SJohn Marino 
331*e4b17023SJohn Marino   /* Pointer to the SCOP containing this PBB.  */
332*e4b17023SJohn Marino   scop_p scop;
333*e4b17023SJohn Marino 
334*e4b17023SJohn Marino   /* The iteration domain of this bb.  The layout of this polyhedron
335*e4b17023SJohn Marino      is I|G with I the iteration domain, G the context parameters.
336*e4b17023SJohn Marino 
337*e4b17023SJohn Marino      Example:
338*e4b17023SJohn Marino 
339*e4b17023SJohn Marino      for (i = a - 7*b + 8; i <= 3*a + 13*b + 20; i++)
340*e4b17023SJohn Marino        for (j = 2; j <= 2*i + 5; j++)
341*e4b17023SJohn Marino          for (k = 0; k <= 5; k++)
342*e4b17023SJohn Marino            S (i,j,k)
343*e4b17023SJohn Marino 
344*e4b17023SJohn Marino      Loop iterators: i, j, k
345*e4b17023SJohn Marino      Parameters: a, b
346*e4b17023SJohn Marino 
347*e4b17023SJohn Marino      | i >=  a -  7b +  8
348*e4b17023SJohn Marino      | i <= 3a + 13b + 20
349*e4b17023SJohn Marino      | j >= 2
350*e4b17023SJohn Marino      | j <= 2i + 5
351*e4b17023SJohn Marino      | k >= 0
352*e4b17023SJohn Marino      | k <= 5
353*e4b17023SJohn Marino 
354*e4b17023SJohn Marino      The number of variables in the DOMAIN may change and is not
355*e4b17023SJohn Marino      related to the number of loops in the original code.  */
356*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_t domain;
357*e4b17023SJohn Marino 
358*e4b17023SJohn Marino   /* The data references we access.  */
359*e4b17023SJohn Marino   VEC (poly_dr_p, heap) *drs;
360*e4b17023SJohn Marino 
361*e4b17023SJohn Marino   /* The original scattering.  */
362*e4b17023SJohn Marino   poly_scattering_p original;
363*e4b17023SJohn Marino 
364*e4b17023SJohn Marino   /* The transformed scattering.  */
365*e4b17023SJohn Marino   poly_scattering_p transformed;
366*e4b17023SJohn Marino 
367*e4b17023SJohn Marino   /* A copy of the transformed scattering.  */
368*e4b17023SJohn Marino   poly_scattering_p saved;
369*e4b17023SJohn Marino 
370*e4b17023SJohn Marino   /* True when the PDR duplicates have already been removed.  */
371*e4b17023SJohn Marino   bool pdr_duplicates_removed;
372*e4b17023SJohn Marino 
373*e4b17023SJohn Marino   /* True when this PBB contains only a reduction statement.  */
374*e4b17023SJohn Marino   bool is_reduction;
375*e4b17023SJohn Marino };
376*e4b17023SJohn Marino 
377*e4b17023SJohn Marino #define PBB_BLACK_BOX(PBB) ((gimple_bb_p) PBB->black_box)
378*e4b17023SJohn Marino #define PBB_SCOP(PBB) (PBB->scop)
379*e4b17023SJohn Marino #define PBB_DOMAIN(PBB) (PBB->domain)
380*e4b17023SJohn Marino #define PBB_DRS(PBB) (PBB->drs)
381*e4b17023SJohn Marino #define PBB_ORIGINAL(PBB) (PBB->original)
382*e4b17023SJohn Marino #define PBB_ORIGINAL_SCATTERING(PBB) (PBB->original->scattering)
383*e4b17023SJohn Marino #define PBB_TRANSFORMED(PBB) (PBB->transformed)
384*e4b17023SJohn Marino #define PBB_TRANSFORMED_SCATTERING(PBB) (PBB->transformed->scattering)
385*e4b17023SJohn Marino #define PBB_SAVED(PBB) (PBB->saved)
386*e4b17023SJohn Marino #define PBB_NB_LOCAL_VARIABLES(PBB) (PBB->transformed->nb_local_variables)
387*e4b17023SJohn Marino #define PBB_NB_SCATTERING_TRANSFORM(PBB) (PBB->transformed->nb_scattering)
388*e4b17023SJohn Marino #define PBB_PDR_DUPLICATES_REMOVED(PBB) (PBB->pdr_duplicates_removed)
389*e4b17023SJohn Marino #define PBB_IS_REDUCTION(PBB) (PBB->is_reduction)
390*e4b17023SJohn Marino 
391*e4b17023SJohn Marino extern poly_bb_p new_poly_bb (scop_p, void *);
392*e4b17023SJohn Marino extern void free_poly_bb (poly_bb_p);
393*e4b17023SJohn Marino extern void debug_loop_vec (poly_bb_p);
394*e4b17023SJohn Marino extern void schedule_to_scattering (poly_bb_p, int);
395*e4b17023SJohn Marino extern void print_pbb_domain (FILE *, poly_bb_p, int);
396*e4b17023SJohn Marino extern void print_pbb (FILE *, poly_bb_p, int);
397*e4b17023SJohn Marino extern void print_scop_context (FILE *, scop_p, int);
398*e4b17023SJohn Marino extern void print_scop (FILE *, scop_p, int);
399*e4b17023SJohn Marino extern void print_cloog (FILE *, scop_p, int);
400*e4b17023SJohn Marino extern void debug_pbb_domain (poly_bb_p, int);
401*e4b17023SJohn Marino extern void debug_pbb (poly_bb_p, int);
402*e4b17023SJohn Marino extern void print_pdrs (FILE *, poly_bb_p, int);
403*e4b17023SJohn Marino extern void debug_pdrs (poly_bb_p, int);
404*e4b17023SJohn Marino extern void debug_scop_context (scop_p, int);
405*e4b17023SJohn Marino extern void debug_scop (scop_p, int);
406*e4b17023SJohn Marino extern void debug_cloog (scop_p, int);
407*e4b17023SJohn Marino extern void print_scop_params (FILE *, scop_p, int);
408*e4b17023SJohn Marino extern void debug_scop_params (scop_p, int);
409*e4b17023SJohn Marino extern void print_iteration_domain (FILE *, poly_bb_p, int);
410*e4b17023SJohn Marino extern void print_iteration_domains (FILE *, scop_p, int);
411*e4b17023SJohn Marino extern void debug_iteration_domain (poly_bb_p, int);
412*e4b17023SJohn Marino extern void debug_iteration_domains (scop_p, int);
413*e4b17023SJohn Marino extern int scop_do_interchange (scop_p);
414*e4b17023SJohn Marino extern int scop_do_strip_mine (scop_p, int);
415*e4b17023SJohn Marino extern bool scop_do_block (scop_p);
416*e4b17023SJohn Marino extern bool flatten_all_loops (scop_p);
417*e4b17023SJohn Marino extern void pbb_number_of_iterations_at_time (poly_bb_p, graphite_dim_t, mpz_t);
418*e4b17023SJohn Marino extern void pbb_remove_duplicate_pdrs (poly_bb_p);
419*e4b17023SJohn Marino 
420*e4b17023SJohn Marino /* Return the number of write data references in PBB.  */
421*e4b17023SJohn Marino 
422*e4b17023SJohn Marino static inline int
number_of_write_pdrs(poly_bb_p pbb)423*e4b17023SJohn Marino number_of_write_pdrs (poly_bb_p pbb)
424*e4b17023SJohn Marino {
425*e4b17023SJohn Marino   int res = 0;
426*e4b17023SJohn Marino   int i;
427*e4b17023SJohn Marino   poly_dr_p pdr;
428*e4b17023SJohn Marino 
429*e4b17023SJohn Marino   for (i = 0; VEC_iterate (poly_dr_p, PBB_DRS (pbb), i, pdr); i++)
430*e4b17023SJohn Marino     if (PDR_TYPE (pdr) == PDR_WRITE)
431*e4b17023SJohn Marino       res++;
432*e4b17023SJohn Marino 
433*e4b17023SJohn Marino   return res;
434*e4b17023SJohn Marino }
435*e4b17023SJohn Marino 
436*e4b17023SJohn Marino /* Returns a gimple_bb from BB.  */
437*e4b17023SJohn Marino 
438*e4b17023SJohn Marino static inline gimple_bb_p
gbb_from_bb(basic_block bb)439*e4b17023SJohn Marino gbb_from_bb (basic_block bb)
440*e4b17023SJohn Marino {
441*e4b17023SJohn Marino   return (gimple_bb_p) bb->aux;
442*e4b17023SJohn Marino }
443*e4b17023SJohn Marino 
444*e4b17023SJohn Marino /* The poly_bb of the BB.  */
445*e4b17023SJohn Marino 
446*e4b17023SJohn Marino static inline poly_bb_p
pbb_from_bb(basic_block bb)447*e4b17023SJohn Marino pbb_from_bb (basic_block bb)
448*e4b17023SJohn Marino {
449*e4b17023SJohn Marino   return GBB_PBB (gbb_from_bb (bb));
450*e4b17023SJohn Marino }
451*e4b17023SJohn Marino 
452*e4b17023SJohn Marino /* The basic block of the PBB.  */
453*e4b17023SJohn Marino 
454*e4b17023SJohn Marino static inline basic_block
pbb_bb(poly_bb_p pbb)455*e4b17023SJohn Marino pbb_bb (poly_bb_p pbb)
456*e4b17023SJohn Marino {
457*e4b17023SJohn Marino   return GBB_BB (PBB_BLACK_BOX (pbb));
458*e4b17023SJohn Marino }
459*e4b17023SJohn Marino 
460*e4b17023SJohn Marino /* The index of the PBB.  */
461*e4b17023SJohn Marino 
462*e4b17023SJohn Marino static inline int
pbb_index(poly_bb_p pbb)463*e4b17023SJohn Marino pbb_index (poly_bb_p pbb)
464*e4b17023SJohn Marino {
465*e4b17023SJohn Marino   return pbb_bb (pbb)->index;
466*e4b17023SJohn Marino }
467*e4b17023SJohn Marino 
468*e4b17023SJohn Marino /* The loop of the PBB.  */
469*e4b17023SJohn Marino 
470*e4b17023SJohn Marino static inline loop_p
pbb_loop(poly_bb_p pbb)471*e4b17023SJohn Marino pbb_loop (poly_bb_p pbb)
472*e4b17023SJohn Marino {
473*e4b17023SJohn Marino   return gbb_loop (PBB_BLACK_BOX (pbb));
474*e4b17023SJohn Marino }
475*e4b17023SJohn Marino 
476*e4b17023SJohn Marino /* The scop that contains the PDR.  */
477*e4b17023SJohn Marino 
478*e4b17023SJohn Marino static inline scop_p
pdr_scop(poly_dr_p pdr)479*e4b17023SJohn Marino pdr_scop (poly_dr_p pdr)
480*e4b17023SJohn Marino {
481*e4b17023SJohn Marino   return PBB_SCOP (PDR_PBB (pdr));
482*e4b17023SJohn Marino }
483*e4b17023SJohn Marino 
484*e4b17023SJohn Marino /* Set black box of PBB to BLACKBOX.  */
485*e4b17023SJohn Marino 
486*e4b17023SJohn Marino static inline void
pbb_set_black_box(poly_bb_p pbb,void * black_box)487*e4b17023SJohn Marino pbb_set_black_box (poly_bb_p pbb, void *black_box)
488*e4b17023SJohn Marino {
489*e4b17023SJohn Marino   pbb->black_box = black_box;
490*e4b17023SJohn Marino }
491*e4b17023SJohn Marino 
492*e4b17023SJohn Marino /* The number of loops around PBB: the dimension of the iteration
493*e4b17023SJohn Marino    domain.  */
494*e4b17023SJohn Marino 
495*e4b17023SJohn Marino static inline graphite_dim_t
pbb_dim_iter_domain(const struct poly_bb * pbb)496*e4b17023SJohn Marino pbb_dim_iter_domain (const struct poly_bb *pbb)
497*e4b17023SJohn Marino {
498*e4b17023SJohn Marino   scop_p scop = PBB_SCOP (pbb);
499*e4b17023SJohn Marino   ppl_dimension_type dim;
500*e4b17023SJohn Marino 
501*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_space_dimension (PBB_DOMAIN (pbb), &dim);
502*e4b17023SJohn Marino   return dim - scop_nb_params (scop);
503*e4b17023SJohn Marino }
504*e4b17023SJohn Marino 
505*e4b17023SJohn Marino /* The number of params defined in PBB.  */
506*e4b17023SJohn Marino 
507*e4b17023SJohn Marino static inline graphite_dim_t
pbb_nb_params(const struct poly_bb * pbb)508*e4b17023SJohn Marino pbb_nb_params (const struct poly_bb *pbb)
509*e4b17023SJohn Marino {
510*e4b17023SJohn Marino   scop_p scop = PBB_SCOP (pbb);
511*e4b17023SJohn Marino 
512*e4b17023SJohn Marino   return scop_nb_params (scop);
513*e4b17023SJohn Marino }
514*e4b17023SJohn Marino 
515*e4b17023SJohn Marino /* The number of scattering dimensions in the SCATTERING polyhedron
516*e4b17023SJohn Marino    of a PBB for a given SCOP.  */
517*e4b17023SJohn Marino 
518*e4b17023SJohn Marino static inline graphite_dim_t
pbb_nb_scattering_orig(const struct poly_bb * pbb)519*e4b17023SJohn Marino pbb_nb_scattering_orig (const struct poly_bb *pbb)
520*e4b17023SJohn Marino {
521*e4b17023SJohn Marino   return 2 * pbb_dim_iter_domain (pbb) + 1;
522*e4b17023SJohn Marino }
523*e4b17023SJohn Marino 
524*e4b17023SJohn Marino /* The number of scattering dimensions in PBB.  */
525*e4b17023SJohn Marino 
526*e4b17023SJohn Marino static inline graphite_dim_t
pbb_nb_scattering_transform(const struct poly_bb * pbb)527*e4b17023SJohn Marino pbb_nb_scattering_transform (const struct poly_bb *pbb)
528*e4b17023SJohn Marino {
529*e4b17023SJohn Marino   return PBB_NB_SCATTERING_TRANSFORM (pbb);
530*e4b17023SJohn Marino }
531*e4b17023SJohn Marino 
532*e4b17023SJohn Marino /* The number of dynamic scattering dimensions in PBB.  */
533*e4b17023SJohn Marino 
534*e4b17023SJohn Marino static inline graphite_dim_t
pbb_nb_dynamic_scattering_transform(const struct poly_bb * pbb)535*e4b17023SJohn Marino pbb_nb_dynamic_scattering_transform (const struct poly_bb *pbb)
536*e4b17023SJohn Marino {
537*e4b17023SJohn Marino   /* This function requires the 2d + 1 scattering format to be
538*e4b17023SJohn Marino      invariant during all transformations.  */
539*e4b17023SJohn Marino   gcc_assert (PBB_NB_SCATTERING_TRANSFORM (pbb) % 2);
540*e4b17023SJohn Marino   return PBB_NB_SCATTERING_TRANSFORM (pbb) / 2;
541*e4b17023SJohn Marino }
542*e4b17023SJohn Marino 
543*e4b17023SJohn Marino /* Returns the number of local variables used in the transformed
544*e4b17023SJohn Marino    scattering polyhedron of PBB.  */
545*e4b17023SJohn Marino 
546*e4b17023SJohn Marino static inline graphite_dim_t
pbb_nb_local_vars(const struct poly_bb * pbb)547*e4b17023SJohn Marino pbb_nb_local_vars (const struct poly_bb *pbb)
548*e4b17023SJohn Marino {
549*e4b17023SJohn Marino   /* For now we do not have any local variables, as we do not do strip
550*e4b17023SJohn Marino      mining for example.  */
551*e4b17023SJohn Marino   return PBB_NB_LOCAL_VARIABLES (pbb);
552*e4b17023SJohn Marino }
553*e4b17023SJohn Marino 
554*e4b17023SJohn Marino /* The dimension in the domain of PBB containing the iterator ITER.  */
555*e4b17023SJohn Marino 
556*e4b17023SJohn Marino static inline ppl_dimension_type
pbb_iterator_dim(poly_bb_p pbb ATTRIBUTE_UNUSED,graphite_dim_t iter)557*e4b17023SJohn Marino pbb_iterator_dim (poly_bb_p pbb ATTRIBUTE_UNUSED, graphite_dim_t iter)
558*e4b17023SJohn Marino {
559*e4b17023SJohn Marino   return iter;
560*e4b17023SJohn Marino }
561*e4b17023SJohn Marino 
562*e4b17023SJohn Marino /* The dimension in the domain of PBB containing the iterator ITER.  */
563*e4b17023SJohn Marino 
564*e4b17023SJohn Marino static inline ppl_dimension_type
pbb_parameter_dim(poly_bb_p pbb,graphite_dim_t param)565*e4b17023SJohn Marino pbb_parameter_dim (poly_bb_p pbb, graphite_dim_t param)
566*e4b17023SJohn Marino {
567*e4b17023SJohn Marino   return param
568*e4b17023SJohn Marino     + pbb_dim_iter_domain (pbb);
569*e4b17023SJohn Marino }
570*e4b17023SJohn Marino 
571*e4b17023SJohn Marino /* The dimension in the original scattering polyhedron of PBB
572*e4b17023SJohn Marino    containing the scattering iterator SCATTER.  */
573*e4b17023SJohn Marino 
574*e4b17023SJohn Marino static inline ppl_dimension_type
psco_scattering_dim(poly_bb_p pbb ATTRIBUTE_UNUSED,graphite_dim_t scatter)575*e4b17023SJohn Marino psco_scattering_dim (poly_bb_p pbb ATTRIBUTE_UNUSED, graphite_dim_t scatter)
576*e4b17023SJohn Marino {
577*e4b17023SJohn Marino   gcc_assert (scatter < pbb_nb_scattering_orig (pbb));
578*e4b17023SJohn Marino   return scatter;
579*e4b17023SJohn Marino }
580*e4b17023SJohn Marino 
581*e4b17023SJohn Marino /* The dimension in the transformed scattering polyhedron of PBB
582*e4b17023SJohn Marino    containing the scattering iterator SCATTER.  */
583*e4b17023SJohn Marino 
584*e4b17023SJohn Marino static inline ppl_dimension_type
psct_scattering_dim(poly_bb_p pbb ATTRIBUTE_UNUSED,graphite_dim_t scatter)585*e4b17023SJohn Marino psct_scattering_dim (poly_bb_p pbb ATTRIBUTE_UNUSED, graphite_dim_t scatter)
586*e4b17023SJohn Marino {
587*e4b17023SJohn Marino   gcc_assert (scatter <= pbb_nb_scattering_transform (pbb));
588*e4b17023SJohn Marino   return scatter;
589*e4b17023SJohn Marino }
590*e4b17023SJohn Marino 
591*e4b17023SJohn Marino ppl_dimension_type psct_scattering_dim_for_loop_depth (poly_bb_p,
592*e4b17023SJohn Marino 						       graphite_dim_t);
593*e4b17023SJohn Marino 
594*e4b17023SJohn Marino /* The dimension in the transformed scattering polyhedron of PBB of
595*e4b17023SJohn Marino    the local variable LV.  */
596*e4b17023SJohn Marino 
597*e4b17023SJohn Marino static inline ppl_dimension_type
psct_local_var_dim(poly_bb_p pbb,graphite_dim_t lv)598*e4b17023SJohn Marino psct_local_var_dim (poly_bb_p pbb, graphite_dim_t lv)
599*e4b17023SJohn Marino {
600*e4b17023SJohn Marino   gcc_assert (lv <= pbb_nb_local_vars (pbb));
601*e4b17023SJohn Marino   return lv + pbb_nb_scattering_transform (pbb);
602*e4b17023SJohn Marino }
603*e4b17023SJohn Marino 
604*e4b17023SJohn Marino /* The dimension in the original scattering polyhedron of PBB
605*e4b17023SJohn Marino    containing the loop iterator ITER.  */
606*e4b17023SJohn Marino 
607*e4b17023SJohn Marino static inline ppl_dimension_type
psco_iterator_dim(poly_bb_p pbb,graphite_dim_t iter)608*e4b17023SJohn Marino psco_iterator_dim (poly_bb_p pbb, graphite_dim_t iter)
609*e4b17023SJohn Marino {
610*e4b17023SJohn Marino   gcc_assert (iter < pbb_dim_iter_domain (pbb));
611*e4b17023SJohn Marino   return iter + pbb_nb_scattering_orig (pbb);
612*e4b17023SJohn Marino }
613*e4b17023SJohn Marino 
614*e4b17023SJohn Marino /* The dimension in the transformed scattering polyhedron of PBB
615*e4b17023SJohn Marino    containing the loop iterator ITER.  */
616*e4b17023SJohn Marino 
617*e4b17023SJohn Marino static inline ppl_dimension_type
psct_iterator_dim(poly_bb_p pbb,graphite_dim_t iter)618*e4b17023SJohn Marino psct_iterator_dim (poly_bb_p pbb, graphite_dim_t iter)
619*e4b17023SJohn Marino {
620*e4b17023SJohn Marino   gcc_assert (iter < pbb_dim_iter_domain (pbb));
621*e4b17023SJohn Marino   return iter
622*e4b17023SJohn Marino     + pbb_nb_scattering_transform (pbb)
623*e4b17023SJohn Marino     + pbb_nb_local_vars (pbb);
624*e4b17023SJohn Marino }
625*e4b17023SJohn Marino 
626*e4b17023SJohn Marino /* The dimension in the original scattering polyhedron of PBB
627*e4b17023SJohn Marino    containing parameter PARAM.  */
628*e4b17023SJohn Marino 
629*e4b17023SJohn Marino static inline ppl_dimension_type
psco_parameter_dim(poly_bb_p pbb,graphite_dim_t param)630*e4b17023SJohn Marino psco_parameter_dim (poly_bb_p pbb, graphite_dim_t param)
631*e4b17023SJohn Marino {
632*e4b17023SJohn Marino   gcc_assert (param < pbb_nb_params (pbb));
633*e4b17023SJohn Marino   return param
634*e4b17023SJohn Marino     + pbb_nb_scattering_orig (pbb)
635*e4b17023SJohn Marino     + pbb_dim_iter_domain (pbb);
636*e4b17023SJohn Marino }
637*e4b17023SJohn Marino 
638*e4b17023SJohn Marino /* The dimension in the transformed scattering polyhedron of PBB
639*e4b17023SJohn Marino    containing parameter PARAM.  */
640*e4b17023SJohn Marino 
641*e4b17023SJohn Marino static inline ppl_dimension_type
psct_parameter_dim(poly_bb_p pbb,graphite_dim_t param)642*e4b17023SJohn Marino psct_parameter_dim (poly_bb_p pbb, graphite_dim_t param)
643*e4b17023SJohn Marino {
644*e4b17023SJohn Marino   gcc_assert (param < pbb_nb_params (pbb));
645*e4b17023SJohn Marino   return param
646*e4b17023SJohn Marino     + pbb_nb_scattering_transform (pbb)
647*e4b17023SJohn Marino     + pbb_nb_local_vars (pbb)
648*e4b17023SJohn Marino     + pbb_dim_iter_domain (pbb);
649*e4b17023SJohn Marino }
650*e4b17023SJohn Marino 
651*e4b17023SJohn Marino /* The scattering dimension of PBB corresponding to the dynamic level
652*e4b17023SJohn Marino    LEVEL.  */
653*e4b17023SJohn Marino 
654*e4b17023SJohn Marino static inline ppl_dimension_type
psct_dynamic_dim(poly_bb_p pbb,graphite_dim_t level)655*e4b17023SJohn Marino psct_dynamic_dim (poly_bb_p pbb, graphite_dim_t level)
656*e4b17023SJohn Marino {
657*e4b17023SJohn Marino   graphite_dim_t result = 1 + 2 * level;
658*e4b17023SJohn Marino 
659*e4b17023SJohn Marino   gcc_assert (result < pbb_nb_scattering_transform (pbb));
660*e4b17023SJohn Marino   return result;
661*e4b17023SJohn Marino }
662*e4b17023SJohn Marino 
663*e4b17023SJohn Marino /* The scattering dimension of PBB corresponding to the static
664*e4b17023SJohn Marino    sequence of the loop level LEVEL.  */
665*e4b17023SJohn Marino 
666*e4b17023SJohn Marino static inline ppl_dimension_type
psct_static_dim(poly_bb_p pbb,graphite_dim_t level)667*e4b17023SJohn Marino psct_static_dim (poly_bb_p pbb, graphite_dim_t level)
668*e4b17023SJohn Marino {
669*e4b17023SJohn Marino   graphite_dim_t result = 2 * level;
670*e4b17023SJohn Marino 
671*e4b17023SJohn Marino   gcc_assert (result < pbb_nb_scattering_transform (pbb));
672*e4b17023SJohn Marino   return result;
673*e4b17023SJohn Marino }
674*e4b17023SJohn Marino 
675*e4b17023SJohn Marino /* Adds to the transformed scattering polyhedron of PBB a new local
676*e4b17023SJohn Marino    variable and returns its index.  */
677*e4b17023SJohn Marino 
678*e4b17023SJohn Marino static inline graphite_dim_t
psct_add_local_variable(poly_bb_p pbb)679*e4b17023SJohn Marino psct_add_local_variable (poly_bb_p pbb)
680*e4b17023SJohn Marino {
681*e4b17023SJohn Marino   graphite_dim_t nlv = pbb_nb_local_vars (pbb);
682*e4b17023SJohn Marino   ppl_dimension_type lv_column = psct_local_var_dim (pbb, nlv);
683*e4b17023SJohn Marino   ppl_insert_dimensions (PBB_TRANSFORMED_SCATTERING (pbb), lv_column, 1);
684*e4b17023SJohn Marino   PBB_NB_LOCAL_VARIABLES (pbb) += 1;
685*e4b17023SJohn Marino   return nlv;
686*e4b17023SJohn Marino }
687*e4b17023SJohn Marino 
688*e4b17023SJohn Marino /* Adds a dimension to the transformed scattering polyhedron of PBB at
689*e4b17023SJohn Marino    INDEX.  */
690*e4b17023SJohn Marino 
691*e4b17023SJohn Marino static inline void
psct_add_scattering_dimension(poly_bb_p pbb,ppl_dimension_type index)692*e4b17023SJohn Marino psct_add_scattering_dimension (poly_bb_p pbb, ppl_dimension_type index)
693*e4b17023SJohn Marino {
694*e4b17023SJohn Marino   gcc_assert (index < pbb_nb_scattering_transform (pbb));
695*e4b17023SJohn Marino 
696*e4b17023SJohn Marino   ppl_insert_dimensions (PBB_TRANSFORMED_SCATTERING (pbb), index, 1);
697*e4b17023SJohn Marino   PBB_NB_SCATTERING_TRANSFORM (pbb) += 1;
698*e4b17023SJohn Marino }
699*e4b17023SJohn Marino 
700*e4b17023SJohn Marino typedef struct lst *lst_p;
701*e4b17023SJohn Marino DEF_VEC_P(lst_p);
702*e4b17023SJohn Marino DEF_VEC_ALLOC_P (lst_p, heap);
703*e4b17023SJohn Marino 
704*e4b17023SJohn Marino /* Loops and Statements Tree.  */
705*e4b17023SJohn Marino struct lst {
706*e4b17023SJohn Marino 
707*e4b17023SJohn Marino   /* LOOP_P is true when an LST node is a loop.  */
708*e4b17023SJohn Marino   bool loop_p;
709*e4b17023SJohn Marino 
710*e4b17023SJohn Marino   /* A pointer to the loop that contains this node.  */
711*e4b17023SJohn Marino   lst_p loop_father;
712*e4b17023SJohn Marino 
713*e4b17023SJohn Marino   /* The sum of all the memory strides for an LST loop.  */
714*e4b17023SJohn Marino   mpz_t memory_strides;
715*e4b17023SJohn Marino 
716*e4b17023SJohn Marino   /* Loop nodes contain a sequence SEQ of LST nodes, statements
717*e4b17023SJohn Marino      contain a pointer to their polyhedral representation PBB.  */
718*e4b17023SJohn Marino   union {
719*e4b17023SJohn Marino     poly_bb_p pbb;
720*e4b17023SJohn Marino     VEC (lst_p, heap) *seq;
721*e4b17023SJohn Marino   } node;
722*e4b17023SJohn Marino };
723*e4b17023SJohn Marino 
724*e4b17023SJohn Marino #define LST_LOOP_P(LST) ((LST)->loop_p)
725*e4b17023SJohn Marino #define LST_LOOP_FATHER(LST) ((LST)->loop_father)
726*e4b17023SJohn Marino #define LST_PBB(LST) ((LST)->node.pbb)
727*e4b17023SJohn Marino #define LST_SEQ(LST) ((LST)->node.seq)
728*e4b17023SJohn Marino #define LST_LOOP_MEMORY_STRIDES(LST) ((LST)->memory_strides)
729*e4b17023SJohn Marino 
730*e4b17023SJohn Marino void scop_to_lst (scop_p);
731*e4b17023SJohn Marino void print_lst (FILE *, lst_p, int);
732*e4b17023SJohn Marino void debug_lst (lst_p);
733*e4b17023SJohn Marino void dot_lst (lst_p);
734*e4b17023SJohn Marino 
735*e4b17023SJohn Marino /* Creates a new LST loop with SEQ.  */
736*e4b17023SJohn Marino 
737*e4b17023SJohn Marino static inline lst_p
new_lst_loop(VEC (lst_p,heap)* seq)738*e4b17023SJohn Marino new_lst_loop (VEC (lst_p, heap) *seq)
739*e4b17023SJohn Marino {
740*e4b17023SJohn Marino   lst_p lst = XNEW (struct lst);
741*e4b17023SJohn Marino   int i;
742*e4b17023SJohn Marino   lst_p l;
743*e4b17023SJohn Marino 
744*e4b17023SJohn Marino   LST_LOOP_P (lst) = true;
745*e4b17023SJohn Marino   LST_SEQ (lst) = seq;
746*e4b17023SJohn Marino   LST_LOOP_FATHER (lst) = NULL;
747*e4b17023SJohn Marino   mpz_init (LST_LOOP_MEMORY_STRIDES (lst));
748*e4b17023SJohn Marino   mpz_set_si (LST_LOOP_MEMORY_STRIDES (lst), -1);
749*e4b17023SJohn Marino 
750*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, seq, i, l); i++)
751*e4b17023SJohn Marino     LST_LOOP_FATHER (l) = lst;
752*e4b17023SJohn Marino 
753*e4b17023SJohn Marino   return lst;
754*e4b17023SJohn Marino }
755*e4b17023SJohn Marino 
756*e4b17023SJohn Marino /* Creates a new LST statement with PBB.  */
757*e4b17023SJohn Marino 
758*e4b17023SJohn Marino static inline lst_p
new_lst_stmt(poly_bb_p pbb)759*e4b17023SJohn Marino new_lst_stmt (poly_bb_p pbb)
760*e4b17023SJohn Marino {
761*e4b17023SJohn Marino   lst_p lst = XNEW (struct lst);
762*e4b17023SJohn Marino 
763*e4b17023SJohn Marino   LST_LOOP_P (lst) = false;
764*e4b17023SJohn Marino   LST_PBB (lst) = pbb;
765*e4b17023SJohn Marino   LST_LOOP_FATHER (lst) = NULL;
766*e4b17023SJohn Marino   return lst;
767*e4b17023SJohn Marino }
768*e4b17023SJohn Marino 
769*e4b17023SJohn Marino /* Frees the memory used by LST.  */
770*e4b17023SJohn Marino 
771*e4b17023SJohn Marino static inline void
free_lst(lst_p lst)772*e4b17023SJohn Marino free_lst (lst_p lst)
773*e4b17023SJohn Marino {
774*e4b17023SJohn Marino   if (!lst)
775*e4b17023SJohn Marino     return;
776*e4b17023SJohn Marino 
777*e4b17023SJohn Marino   if (LST_LOOP_P (lst))
778*e4b17023SJohn Marino     {
779*e4b17023SJohn Marino       int i;
780*e4b17023SJohn Marino       lst_p l;
781*e4b17023SJohn Marino 
782*e4b17023SJohn Marino       for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
783*e4b17023SJohn Marino 	free_lst (l);
784*e4b17023SJohn Marino 
785*e4b17023SJohn Marino       mpz_clear (LST_LOOP_MEMORY_STRIDES (lst));
786*e4b17023SJohn Marino       VEC_free (lst_p, heap, LST_SEQ (lst));
787*e4b17023SJohn Marino     }
788*e4b17023SJohn Marino 
789*e4b17023SJohn Marino   free (lst);
790*e4b17023SJohn Marino }
791*e4b17023SJohn Marino 
792*e4b17023SJohn Marino /* Returns a copy of LST.  */
793*e4b17023SJohn Marino 
794*e4b17023SJohn Marino static inline lst_p
copy_lst(lst_p lst)795*e4b17023SJohn Marino copy_lst (lst_p lst)
796*e4b17023SJohn Marino {
797*e4b17023SJohn Marino   if (!lst)
798*e4b17023SJohn Marino     return NULL;
799*e4b17023SJohn Marino 
800*e4b17023SJohn Marino   if (LST_LOOP_P (lst))
801*e4b17023SJohn Marino     {
802*e4b17023SJohn Marino       int i;
803*e4b17023SJohn Marino       lst_p l;
804*e4b17023SJohn Marino       VEC (lst_p, heap) *seq = VEC_alloc (lst_p, heap, 5);
805*e4b17023SJohn Marino 
806*e4b17023SJohn Marino       for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
807*e4b17023SJohn Marino 	VEC_safe_push (lst_p, heap, seq, copy_lst (l));
808*e4b17023SJohn Marino 
809*e4b17023SJohn Marino       return new_lst_loop (seq);
810*e4b17023SJohn Marino     }
811*e4b17023SJohn Marino 
812*e4b17023SJohn Marino   return new_lst_stmt (LST_PBB (lst));
813*e4b17023SJohn Marino }
814*e4b17023SJohn Marino 
815*e4b17023SJohn Marino /* Adds a new loop under the loop LST.  */
816*e4b17023SJohn Marino 
817*e4b17023SJohn Marino static inline void
lst_add_loop_under_loop(lst_p lst)818*e4b17023SJohn Marino lst_add_loop_under_loop (lst_p lst)
819*e4b17023SJohn Marino {
820*e4b17023SJohn Marino   VEC (lst_p, heap) *seq = VEC_alloc (lst_p, heap, 1);
821*e4b17023SJohn Marino   lst_p l = new_lst_loop (LST_SEQ (lst));
822*e4b17023SJohn Marino 
823*e4b17023SJohn Marino   gcc_assert (LST_LOOP_P (lst));
824*e4b17023SJohn Marino 
825*e4b17023SJohn Marino   LST_LOOP_FATHER (l) = lst;
826*e4b17023SJohn Marino   VEC_quick_push (lst_p, seq, l);
827*e4b17023SJohn Marino   LST_SEQ (lst) = seq;
828*e4b17023SJohn Marino }
829*e4b17023SJohn Marino 
830*e4b17023SJohn Marino /* Returns the loop depth of LST.  */
831*e4b17023SJohn Marino 
832*e4b17023SJohn Marino static inline int
lst_depth(lst_p lst)833*e4b17023SJohn Marino lst_depth (lst_p lst)
834*e4b17023SJohn Marino {
835*e4b17023SJohn Marino   if (!lst)
836*e4b17023SJohn Marino     return -2;
837*e4b17023SJohn Marino 
838*e4b17023SJohn Marino   /* The depth of the outermost "fake" loop is -1.  This outermost
839*e4b17023SJohn Marino      loop does not have a loop father and it is just a container, as
840*e4b17023SJohn Marino      in the loop representation of GCC.  */
841*e4b17023SJohn Marino   if (!LST_LOOP_FATHER (lst))
842*e4b17023SJohn Marino     return -1;
843*e4b17023SJohn Marino 
844*e4b17023SJohn Marino   return lst_depth (LST_LOOP_FATHER (lst)) + 1;
845*e4b17023SJohn Marino }
846*e4b17023SJohn Marino 
847*e4b17023SJohn Marino /* Returns the Dewey number for LST.  */
848*e4b17023SJohn Marino 
849*e4b17023SJohn Marino static inline int
lst_dewey_number(lst_p lst)850*e4b17023SJohn Marino lst_dewey_number (lst_p lst)
851*e4b17023SJohn Marino {
852*e4b17023SJohn Marino   int i;
853*e4b17023SJohn Marino   lst_p l;
854*e4b17023SJohn Marino 
855*e4b17023SJohn Marino   if (!lst)
856*e4b17023SJohn Marino     return -1;
857*e4b17023SJohn Marino 
858*e4b17023SJohn Marino   if (!LST_LOOP_FATHER (lst))
859*e4b17023SJohn Marino     return 0;
860*e4b17023SJohn Marino 
861*e4b17023SJohn Marino   FOR_EACH_VEC_ELT (lst_p, LST_SEQ (LST_LOOP_FATHER (lst)), i, l)
862*e4b17023SJohn Marino     if (l == lst)
863*e4b17023SJohn Marino       return i;
864*e4b17023SJohn Marino 
865*e4b17023SJohn Marino   return -1;
866*e4b17023SJohn Marino }
867*e4b17023SJohn Marino 
868*e4b17023SJohn Marino /* Returns the Dewey number of LST at depth DEPTH.  */
869*e4b17023SJohn Marino 
870*e4b17023SJohn Marino static inline int
lst_dewey_number_at_depth(lst_p lst,int depth)871*e4b17023SJohn Marino lst_dewey_number_at_depth (lst_p lst, int depth)
872*e4b17023SJohn Marino {
873*e4b17023SJohn Marino   gcc_assert (lst && depth >= 0 && lst_depth (lst) <= depth);
874*e4b17023SJohn Marino 
875*e4b17023SJohn Marino   if (lst_depth (lst) == depth)
876*e4b17023SJohn Marino     return lst_dewey_number (lst);
877*e4b17023SJohn Marino 
878*e4b17023SJohn Marino   return lst_dewey_number_at_depth (LST_LOOP_FATHER (lst), depth);
879*e4b17023SJohn Marino }
880*e4b17023SJohn Marino 
881*e4b17023SJohn Marino /* Returns the predecessor of LST in the sequence of its loop father.
882*e4b17023SJohn Marino    Returns NULL if LST is the first statement in the sequence.  */
883*e4b17023SJohn Marino 
884*e4b17023SJohn Marino static inline lst_p
lst_pred(lst_p lst)885*e4b17023SJohn Marino lst_pred (lst_p lst)
886*e4b17023SJohn Marino {
887*e4b17023SJohn Marino   int dewey;
888*e4b17023SJohn Marino   lst_p father;
889*e4b17023SJohn Marino 
890*e4b17023SJohn Marino   if (!lst || !LST_LOOP_FATHER (lst))
891*e4b17023SJohn Marino     return NULL;
892*e4b17023SJohn Marino 
893*e4b17023SJohn Marino   dewey = lst_dewey_number (lst);
894*e4b17023SJohn Marino   if (dewey == 0)
895*e4b17023SJohn Marino     return NULL;
896*e4b17023SJohn Marino 
897*e4b17023SJohn Marino   father = LST_LOOP_FATHER (lst);
898*e4b17023SJohn Marino   return VEC_index (lst_p, LST_SEQ (father), dewey - 1);
899*e4b17023SJohn Marino }
900*e4b17023SJohn Marino 
901*e4b17023SJohn Marino /* Returns the successor of LST in the sequence of its loop father.
902*e4b17023SJohn Marino    Returns NULL if there is none.  */
903*e4b17023SJohn Marino 
904*e4b17023SJohn Marino static inline lst_p
lst_succ(lst_p lst)905*e4b17023SJohn Marino lst_succ (lst_p lst)
906*e4b17023SJohn Marino {
907*e4b17023SJohn Marino   int dewey;
908*e4b17023SJohn Marino   lst_p father;
909*e4b17023SJohn Marino 
910*e4b17023SJohn Marino   if (!lst || !LST_LOOP_FATHER (lst))
911*e4b17023SJohn Marino     return NULL;
912*e4b17023SJohn Marino 
913*e4b17023SJohn Marino   dewey = lst_dewey_number (lst);
914*e4b17023SJohn Marino   father = LST_LOOP_FATHER (lst);
915*e4b17023SJohn Marino 
916*e4b17023SJohn Marino   if (VEC_length (lst_p, LST_SEQ (father)) == (unsigned) dewey + 1)
917*e4b17023SJohn Marino     return NULL;
918*e4b17023SJohn Marino 
919*e4b17023SJohn Marino   return VEC_index (lst_p, LST_SEQ (father), dewey + 1);
920*e4b17023SJohn Marino }
921*e4b17023SJohn Marino 
922*e4b17023SJohn Marino 
923*e4b17023SJohn Marino /* Return the LST node corresponding to PBB.  */
924*e4b17023SJohn Marino 
925*e4b17023SJohn Marino static inline lst_p
lst_find_pbb(lst_p lst,poly_bb_p pbb)926*e4b17023SJohn Marino lst_find_pbb (lst_p lst, poly_bb_p pbb)
927*e4b17023SJohn Marino {
928*e4b17023SJohn Marino   int i;
929*e4b17023SJohn Marino   lst_p l;
930*e4b17023SJohn Marino 
931*e4b17023SJohn Marino   if (!lst)
932*e4b17023SJohn Marino     return NULL;
933*e4b17023SJohn Marino 
934*e4b17023SJohn Marino   if (!LST_LOOP_P (lst))
935*e4b17023SJohn Marino     return (pbb == LST_PBB (lst)) ? lst : NULL;
936*e4b17023SJohn Marino 
937*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
938*e4b17023SJohn Marino     {
939*e4b17023SJohn Marino       lst_p res = lst_find_pbb (l, pbb);
940*e4b17023SJohn Marino       if (res)
941*e4b17023SJohn Marino 	return res;
942*e4b17023SJohn Marino     }
943*e4b17023SJohn Marino 
944*e4b17023SJohn Marino   return NULL;
945*e4b17023SJohn Marino }
946*e4b17023SJohn Marino 
947*e4b17023SJohn Marino /* Return the LST node corresponding to the loop around STMT at depth
948*e4b17023SJohn Marino    LOOP_DEPTH.  */
949*e4b17023SJohn Marino 
950*e4b17023SJohn Marino static inline lst_p
find_lst_loop(lst_p stmt,int loop_depth)951*e4b17023SJohn Marino find_lst_loop (lst_p stmt, int loop_depth)
952*e4b17023SJohn Marino {
953*e4b17023SJohn Marino   lst_p loop = LST_LOOP_FATHER (stmt);
954*e4b17023SJohn Marino 
955*e4b17023SJohn Marino   gcc_assert (loop_depth >= 0);
956*e4b17023SJohn Marino 
957*e4b17023SJohn Marino   while (loop_depth < lst_depth (loop))
958*e4b17023SJohn Marino     loop = LST_LOOP_FATHER (loop);
959*e4b17023SJohn Marino 
960*e4b17023SJohn Marino   return loop;
961*e4b17023SJohn Marino }
962*e4b17023SJohn Marino 
963*e4b17023SJohn Marino /* Return the first LST representing a PBB statement in LST.  */
964*e4b17023SJohn Marino 
965*e4b17023SJohn Marino static inline lst_p
lst_find_first_pbb(lst_p lst)966*e4b17023SJohn Marino lst_find_first_pbb (lst_p lst)
967*e4b17023SJohn Marino {
968*e4b17023SJohn Marino   int i;
969*e4b17023SJohn Marino   lst_p l;
970*e4b17023SJohn Marino 
971*e4b17023SJohn Marino   if (!lst)
972*e4b17023SJohn Marino     return NULL;
973*e4b17023SJohn Marino 
974*e4b17023SJohn Marino   if (!LST_LOOP_P (lst))
975*e4b17023SJohn Marino     return lst;
976*e4b17023SJohn Marino 
977*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
978*e4b17023SJohn Marino     {
979*e4b17023SJohn Marino       lst_p res = lst_find_first_pbb (l);
980*e4b17023SJohn Marino       if (res)
981*e4b17023SJohn Marino 	return res;
982*e4b17023SJohn Marino     }
983*e4b17023SJohn Marino 
984*e4b17023SJohn Marino   return NULL;
985*e4b17023SJohn Marino }
986*e4b17023SJohn Marino 
987*e4b17023SJohn Marino /* Returns true when LST is a loop that does not contain
988*e4b17023SJohn Marino    statements.  */
989*e4b17023SJohn Marino 
990*e4b17023SJohn Marino static inline bool
lst_empty_p(lst_p lst)991*e4b17023SJohn Marino lst_empty_p (lst_p lst)
992*e4b17023SJohn Marino {
993*e4b17023SJohn Marino   return !lst_find_first_pbb (lst);
994*e4b17023SJohn Marino }
995*e4b17023SJohn Marino 
996*e4b17023SJohn Marino /* Return the last LST representing a PBB statement in LST.  */
997*e4b17023SJohn Marino 
998*e4b17023SJohn Marino static inline lst_p
lst_find_last_pbb(lst_p lst)999*e4b17023SJohn Marino lst_find_last_pbb (lst_p lst)
1000*e4b17023SJohn Marino {
1001*e4b17023SJohn Marino   int i;
1002*e4b17023SJohn Marino   lst_p l, res = NULL;
1003*e4b17023SJohn Marino 
1004*e4b17023SJohn Marino   if (!lst)
1005*e4b17023SJohn Marino     return NULL;
1006*e4b17023SJohn Marino 
1007*e4b17023SJohn Marino   if (!LST_LOOP_P (lst))
1008*e4b17023SJohn Marino     return lst;
1009*e4b17023SJohn Marino 
1010*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
1011*e4b17023SJohn Marino     {
1012*e4b17023SJohn Marino       lst_p last = lst_find_last_pbb (l);
1013*e4b17023SJohn Marino 
1014*e4b17023SJohn Marino       if (last)
1015*e4b17023SJohn Marino 	res = last;
1016*e4b17023SJohn Marino     }
1017*e4b17023SJohn Marino 
1018*e4b17023SJohn Marino   gcc_assert (res);
1019*e4b17023SJohn Marino   return res;
1020*e4b17023SJohn Marino }
1021*e4b17023SJohn Marino 
1022*e4b17023SJohn Marino /* Returns true if LOOP contains LST, in other words, if LST is nested
1023*e4b17023SJohn Marino    in LOOP.  */
1024*e4b17023SJohn Marino 
1025*e4b17023SJohn Marino static inline bool
lst_contains_p(lst_p loop,lst_p lst)1026*e4b17023SJohn Marino lst_contains_p (lst_p loop, lst_p lst)
1027*e4b17023SJohn Marino {
1028*e4b17023SJohn Marino   if (!loop || !lst || !LST_LOOP_P (loop))
1029*e4b17023SJohn Marino     return false;
1030*e4b17023SJohn Marino 
1031*e4b17023SJohn Marino   if (loop == lst)
1032*e4b17023SJohn Marino     return true;
1033*e4b17023SJohn Marino 
1034*e4b17023SJohn Marino   return lst_contains_p (loop, LST_LOOP_FATHER (lst));
1035*e4b17023SJohn Marino }
1036*e4b17023SJohn Marino 
1037*e4b17023SJohn Marino /* Returns true if LOOP contains PBB, in other words, if PBB is nested
1038*e4b17023SJohn Marino    in LOOP.  */
1039*e4b17023SJohn Marino 
1040*e4b17023SJohn Marino static inline bool
lst_contains_pbb(lst_p loop,poly_bb_p pbb)1041*e4b17023SJohn Marino lst_contains_pbb (lst_p loop, poly_bb_p pbb)
1042*e4b17023SJohn Marino {
1043*e4b17023SJohn Marino   return lst_find_pbb (loop, pbb) ? true : false;
1044*e4b17023SJohn Marino }
1045*e4b17023SJohn Marino 
1046*e4b17023SJohn Marino /* Creates a loop nest of depth NB_LOOPS containing LST.  */
1047*e4b17023SJohn Marino 
1048*e4b17023SJohn Marino static inline lst_p
lst_create_nest(int nb_loops,lst_p lst)1049*e4b17023SJohn Marino lst_create_nest (int nb_loops, lst_p lst)
1050*e4b17023SJohn Marino {
1051*e4b17023SJohn Marino   lst_p res, loop;
1052*e4b17023SJohn Marino   VEC (lst_p, heap) *seq;
1053*e4b17023SJohn Marino 
1054*e4b17023SJohn Marino   if (nb_loops == 0)
1055*e4b17023SJohn Marino     return lst;
1056*e4b17023SJohn Marino 
1057*e4b17023SJohn Marino   seq = VEC_alloc (lst_p, heap, 1);
1058*e4b17023SJohn Marino   loop = lst_create_nest (nb_loops - 1, lst);
1059*e4b17023SJohn Marino   VEC_quick_push (lst_p, seq, loop);
1060*e4b17023SJohn Marino   res = new_lst_loop (seq);
1061*e4b17023SJohn Marino   LST_LOOP_FATHER (loop) = res;
1062*e4b17023SJohn Marino 
1063*e4b17023SJohn Marino   return res;
1064*e4b17023SJohn Marino }
1065*e4b17023SJohn Marino 
1066*e4b17023SJohn Marino /* Removes LST from the sequence of statements of its loop father.  */
1067*e4b17023SJohn Marino 
1068*e4b17023SJohn Marino static inline void
lst_remove_from_sequence(lst_p lst)1069*e4b17023SJohn Marino lst_remove_from_sequence (lst_p lst)
1070*e4b17023SJohn Marino {
1071*e4b17023SJohn Marino   lst_p father = LST_LOOP_FATHER (lst);
1072*e4b17023SJohn Marino   int dewey = lst_dewey_number (lst);
1073*e4b17023SJohn Marino 
1074*e4b17023SJohn Marino   gcc_assert (lst && father && dewey >= 0);
1075*e4b17023SJohn Marino 
1076*e4b17023SJohn Marino   VEC_ordered_remove (lst_p, LST_SEQ (father), dewey);
1077*e4b17023SJohn Marino   LST_LOOP_FATHER (lst) = NULL;
1078*e4b17023SJohn Marino }
1079*e4b17023SJohn Marino 
1080*e4b17023SJohn Marino /* Removes the loop LST and inline its body in the father loop.  */
1081*e4b17023SJohn Marino 
1082*e4b17023SJohn Marino static inline void
lst_remove_loop_and_inline_stmts_in_loop_father(lst_p lst)1083*e4b17023SJohn Marino lst_remove_loop_and_inline_stmts_in_loop_father (lst_p lst)
1084*e4b17023SJohn Marino {
1085*e4b17023SJohn Marino   lst_p l, father = LST_LOOP_FATHER (lst);
1086*e4b17023SJohn Marino   int i, dewey = lst_dewey_number (lst);
1087*e4b17023SJohn Marino 
1088*e4b17023SJohn Marino   gcc_assert (lst && father && dewey >= 0);
1089*e4b17023SJohn Marino 
1090*e4b17023SJohn Marino   VEC_ordered_remove (lst_p, LST_SEQ (father), dewey);
1091*e4b17023SJohn Marino   LST_LOOP_FATHER (lst) = NULL;
1092*e4b17023SJohn Marino 
1093*e4b17023SJohn Marino   FOR_EACH_VEC_ELT (lst_p, LST_SEQ (lst), i, l)
1094*e4b17023SJohn Marino     {
1095*e4b17023SJohn Marino       VEC_safe_insert (lst_p, heap, LST_SEQ (father), dewey + i, l);
1096*e4b17023SJohn Marino       LST_LOOP_FATHER (l) = father;
1097*e4b17023SJohn Marino     }
1098*e4b17023SJohn Marino }
1099*e4b17023SJohn Marino 
1100*e4b17023SJohn Marino /* Sets NITER to the upper bound approximation of the number of
1101*e4b17023SJohn Marino    iterations of loop LST.  */
1102*e4b17023SJohn Marino 
1103*e4b17023SJohn Marino static inline void
lst_niter_for_loop(lst_p lst,mpz_t niter)1104*e4b17023SJohn Marino lst_niter_for_loop (lst_p lst, mpz_t niter)
1105*e4b17023SJohn Marino {
1106*e4b17023SJohn Marino   int depth = lst_depth (lst);
1107*e4b17023SJohn Marino   poly_bb_p pbb = LST_PBB (lst_find_first_pbb (lst));
1108*e4b17023SJohn Marino 
1109*e4b17023SJohn Marino   gcc_assert (LST_LOOP_P (lst));
1110*e4b17023SJohn Marino   pbb_number_of_iterations_at_time (pbb, psct_dynamic_dim (pbb, depth), niter);
1111*e4b17023SJohn Marino }
1112*e4b17023SJohn Marino 
1113*e4b17023SJohn Marino /* Updates the scattering of PBB to be at the DEWEY number in the loop
1114*e4b17023SJohn Marino    at depth LEVEL.  */
1115*e4b17023SJohn Marino 
1116*e4b17023SJohn Marino static inline void
pbb_update_scattering(poly_bb_p pbb,graphite_dim_t level,int dewey)1117*e4b17023SJohn Marino pbb_update_scattering (poly_bb_p pbb, graphite_dim_t level, int dewey)
1118*e4b17023SJohn Marino {
1119*e4b17023SJohn Marino   ppl_Polyhedron_t ph = PBB_TRANSFORMED_SCATTERING (pbb);
1120*e4b17023SJohn Marino   ppl_dimension_type sched = psct_static_dim (pbb, level);
1121*e4b17023SJohn Marino   ppl_dimension_type ds[1];
1122*e4b17023SJohn Marino   ppl_Constraint_t new_cstr;
1123*e4b17023SJohn Marino   ppl_Linear_Expression_t expr;
1124*e4b17023SJohn Marino   ppl_dimension_type dim;
1125*e4b17023SJohn Marino 
1126*e4b17023SJohn Marino   ppl_Polyhedron_space_dimension (ph, &dim);
1127*e4b17023SJohn Marino   ds[0] = sched;
1128*e4b17023SJohn Marino   ppl_Polyhedron_remove_space_dimensions (ph, ds, 1);
1129*e4b17023SJohn Marino   ppl_insert_dimensions (ph, sched, 1);
1130*e4b17023SJohn Marino 
1131*e4b17023SJohn Marino   ppl_new_Linear_Expression_with_dimension (&expr, dim);
1132*e4b17023SJohn Marino   ppl_set_coef (expr, sched, -1);
1133*e4b17023SJohn Marino   ppl_set_inhomogeneous (expr, dewey);
1134*e4b17023SJohn Marino   ppl_new_Constraint (&new_cstr, expr, PPL_CONSTRAINT_TYPE_EQUAL);
1135*e4b17023SJohn Marino   ppl_delete_Linear_Expression (expr);
1136*e4b17023SJohn Marino   ppl_Polyhedron_add_constraint (ph, new_cstr);
1137*e4b17023SJohn Marino   ppl_delete_Constraint (new_cstr);
1138*e4b17023SJohn Marino }
1139*e4b17023SJohn Marino 
1140*e4b17023SJohn Marino /* Updates the scattering of all the PBBs under LST to be at the DEWEY
1141*e4b17023SJohn Marino    number in the loop at depth LEVEL.  */
1142*e4b17023SJohn Marino 
1143*e4b17023SJohn Marino static inline void
lst_update_scattering_under(lst_p lst,int level,int dewey)1144*e4b17023SJohn Marino lst_update_scattering_under (lst_p lst, int level, int dewey)
1145*e4b17023SJohn Marino {
1146*e4b17023SJohn Marino   int i;
1147*e4b17023SJohn Marino   lst_p l;
1148*e4b17023SJohn Marino 
1149*e4b17023SJohn Marino   gcc_assert (lst && level >= 0 && dewey >= 0);
1150*e4b17023SJohn Marino 
1151*e4b17023SJohn Marino   if (LST_LOOP_P (lst))
1152*e4b17023SJohn Marino     for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
1153*e4b17023SJohn Marino       lst_update_scattering_under (l, level, dewey);
1154*e4b17023SJohn Marino   else
1155*e4b17023SJohn Marino     pbb_update_scattering (LST_PBB (lst), level, dewey);
1156*e4b17023SJohn Marino }
1157*e4b17023SJohn Marino 
1158*e4b17023SJohn Marino /* Updates the all the scattering levels of all the PBBs under
1159*e4b17023SJohn Marino    LST.  */
1160*e4b17023SJohn Marino 
1161*e4b17023SJohn Marino static inline void
lst_update_scattering(lst_p lst)1162*e4b17023SJohn Marino lst_update_scattering (lst_p lst)
1163*e4b17023SJohn Marino {
1164*e4b17023SJohn Marino   int i;
1165*e4b17023SJohn Marino   lst_p l;
1166*e4b17023SJohn Marino 
1167*e4b17023SJohn Marino   if (!lst)
1168*e4b17023SJohn Marino     return;
1169*e4b17023SJohn Marino 
1170*e4b17023SJohn Marino   if (LST_LOOP_FATHER (lst))
1171*e4b17023SJohn Marino     {
1172*e4b17023SJohn Marino       lst_p father = LST_LOOP_FATHER (lst);
1173*e4b17023SJohn Marino       int dewey = lst_dewey_number (lst);
1174*e4b17023SJohn Marino       int level = lst_depth (lst);
1175*e4b17023SJohn Marino 
1176*e4b17023SJohn Marino       gcc_assert (lst && father && dewey >= 0 && level >= 0);
1177*e4b17023SJohn Marino 
1178*e4b17023SJohn Marino       for (i = dewey; VEC_iterate (lst_p, LST_SEQ (father), i, l); i++)
1179*e4b17023SJohn Marino 	lst_update_scattering_under (l, level, i);
1180*e4b17023SJohn Marino     }
1181*e4b17023SJohn Marino 
1182*e4b17023SJohn Marino   if (LST_LOOP_P (lst))
1183*e4b17023SJohn Marino     for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
1184*e4b17023SJohn Marino       lst_update_scattering (l);
1185*e4b17023SJohn Marino }
1186*e4b17023SJohn Marino 
1187*e4b17023SJohn Marino /* Inserts LST1 before LST2 if BEFORE is true; inserts LST1 after LST2
1188*e4b17023SJohn Marino    if BEFORE is false.  */
1189*e4b17023SJohn Marino 
1190*e4b17023SJohn Marino static inline void
lst_insert_in_sequence(lst_p lst1,lst_p lst2,bool before)1191*e4b17023SJohn Marino lst_insert_in_sequence (lst_p lst1, lst_p lst2, bool before)
1192*e4b17023SJohn Marino {
1193*e4b17023SJohn Marino   lst_p father;
1194*e4b17023SJohn Marino   int dewey;
1195*e4b17023SJohn Marino 
1196*e4b17023SJohn Marino   /* Do not insert empty loops.  */
1197*e4b17023SJohn Marino   if (!lst1 || lst_empty_p (lst1))
1198*e4b17023SJohn Marino     return;
1199*e4b17023SJohn Marino 
1200*e4b17023SJohn Marino   father = LST_LOOP_FATHER (lst2);
1201*e4b17023SJohn Marino   dewey = lst_dewey_number (lst2);
1202*e4b17023SJohn Marino 
1203*e4b17023SJohn Marino   gcc_assert (lst2 && father && dewey >= 0);
1204*e4b17023SJohn Marino 
1205*e4b17023SJohn Marino   VEC_safe_insert (lst_p, heap, LST_SEQ (father), before ? dewey : dewey + 1,
1206*e4b17023SJohn Marino 		   lst1);
1207*e4b17023SJohn Marino   LST_LOOP_FATHER (lst1) = father;
1208*e4b17023SJohn Marino }
1209*e4b17023SJohn Marino 
1210*e4b17023SJohn Marino /* Replaces LST1 with LST2.  */
1211*e4b17023SJohn Marino 
1212*e4b17023SJohn Marino static inline void
lst_replace(lst_p lst1,lst_p lst2)1213*e4b17023SJohn Marino lst_replace (lst_p lst1, lst_p lst2)
1214*e4b17023SJohn Marino {
1215*e4b17023SJohn Marino   lst_p father;
1216*e4b17023SJohn Marino   int dewey;
1217*e4b17023SJohn Marino 
1218*e4b17023SJohn Marino   if (!lst2 || lst_empty_p (lst2))
1219*e4b17023SJohn Marino     return;
1220*e4b17023SJohn Marino 
1221*e4b17023SJohn Marino   father = LST_LOOP_FATHER (lst1);
1222*e4b17023SJohn Marino   dewey = lst_dewey_number (lst1);
1223*e4b17023SJohn Marino   LST_LOOP_FATHER (lst2) = father;
1224*e4b17023SJohn Marino   VEC_replace (lst_p, LST_SEQ (father), dewey, lst2);
1225*e4b17023SJohn Marino }
1226*e4b17023SJohn Marino 
1227*e4b17023SJohn Marino /* Returns a copy of ROOT where LST has been replaced by a copy of the
1228*e4b17023SJohn Marino    LSTs A B C in this sequence.  */
1229*e4b17023SJohn Marino 
1230*e4b17023SJohn Marino static inline lst_p
lst_substitute_3(lst_p root,lst_p lst,lst_p a,lst_p b,lst_p c)1231*e4b17023SJohn Marino lst_substitute_3 (lst_p root, lst_p lst, lst_p a, lst_p b, lst_p c)
1232*e4b17023SJohn Marino {
1233*e4b17023SJohn Marino   int i;
1234*e4b17023SJohn Marino   lst_p l;
1235*e4b17023SJohn Marino   VEC (lst_p, heap) *seq;
1236*e4b17023SJohn Marino 
1237*e4b17023SJohn Marino   if (!root)
1238*e4b17023SJohn Marino     return NULL;
1239*e4b17023SJohn Marino 
1240*e4b17023SJohn Marino   gcc_assert (lst && root != lst);
1241*e4b17023SJohn Marino 
1242*e4b17023SJohn Marino   if (!LST_LOOP_P (root))
1243*e4b17023SJohn Marino     return new_lst_stmt (LST_PBB (root));
1244*e4b17023SJohn Marino 
1245*e4b17023SJohn Marino   seq = VEC_alloc (lst_p, heap, 5);
1246*e4b17023SJohn Marino 
1247*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (root), i, l); i++)
1248*e4b17023SJohn Marino     if (l != lst)
1249*e4b17023SJohn Marino       VEC_safe_push (lst_p, heap, seq, lst_substitute_3 (l, lst, a, b, c));
1250*e4b17023SJohn Marino     else
1251*e4b17023SJohn Marino       {
1252*e4b17023SJohn Marino 	if (!lst_empty_p (a))
1253*e4b17023SJohn Marino 	  VEC_safe_push (lst_p, heap, seq, copy_lst (a));
1254*e4b17023SJohn Marino 	if (!lst_empty_p (b))
1255*e4b17023SJohn Marino 	  VEC_safe_push (lst_p, heap, seq, copy_lst (b));
1256*e4b17023SJohn Marino 	if (!lst_empty_p (c))
1257*e4b17023SJohn Marino 	  VEC_safe_push (lst_p, heap, seq, copy_lst (c));
1258*e4b17023SJohn Marino       }
1259*e4b17023SJohn Marino 
1260*e4b17023SJohn Marino   return new_lst_loop (seq);
1261*e4b17023SJohn Marino }
1262*e4b17023SJohn Marino 
1263*e4b17023SJohn Marino /* Moves LST before LOOP if BEFORE is true, and after the LOOP if
1264*e4b17023SJohn Marino    BEFORE is false.  */
1265*e4b17023SJohn Marino 
1266*e4b17023SJohn Marino static inline void
lst_distribute_lst(lst_p loop,lst_p lst,bool before)1267*e4b17023SJohn Marino lst_distribute_lst (lst_p loop, lst_p lst, bool before)
1268*e4b17023SJohn Marino {
1269*e4b17023SJohn Marino   int loop_depth = lst_depth (loop);
1270*e4b17023SJohn Marino   int depth = lst_depth (lst);
1271*e4b17023SJohn Marino   int nb_loops = depth - loop_depth;
1272*e4b17023SJohn Marino 
1273*e4b17023SJohn Marino   gcc_assert (lst && loop && LST_LOOP_P (loop) && nb_loops > 0);
1274*e4b17023SJohn Marino 
1275*e4b17023SJohn Marino   lst_remove_from_sequence (lst);
1276*e4b17023SJohn Marino   lst_insert_in_sequence (lst_create_nest (nb_loops, lst), loop, before);
1277*e4b17023SJohn Marino }
1278*e4b17023SJohn Marino 
1279*e4b17023SJohn Marino /* Removes from LOOP all the statements before/after and including PBB
1280*e4b17023SJohn Marino    if BEFORE is true/false.  Returns the negation of BEFORE when the
1281*e4b17023SJohn Marino    statement PBB has been found.  */
1282*e4b17023SJohn Marino 
1283*e4b17023SJohn Marino static inline bool
lst_remove_all_before_including_pbb(lst_p loop,poly_bb_p pbb,bool before)1284*e4b17023SJohn Marino lst_remove_all_before_including_pbb (lst_p loop, poly_bb_p pbb, bool before)
1285*e4b17023SJohn Marino {
1286*e4b17023SJohn Marino   int i;
1287*e4b17023SJohn Marino   lst_p l;
1288*e4b17023SJohn Marino 
1289*e4b17023SJohn Marino   if (!loop || !LST_LOOP_P (loop))
1290*e4b17023SJohn Marino     return before;
1291*e4b17023SJohn Marino 
1292*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (loop), i, l);)
1293*e4b17023SJohn Marino     if (LST_LOOP_P (l))
1294*e4b17023SJohn Marino       {
1295*e4b17023SJohn Marino 	before = lst_remove_all_before_including_pbb (l, pbb, before);
1296*e4b17023SJohn Marino 
1297*e4b17023SJohn Marino 	if (VEC_length (lst_p, LST_SEQ (l)) == 0)
1298*e4b17023SJohn Marino 	  {
1299*e4b17023SJohn Marino 	    VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
1300*e4b17023SJohn Marino 	    free_lst (l);
1301*e4b17023SJohn Marino 	  }
1302*e4b17023SJohn Marino 	else
1303*e4b17023SJohn Marino 	  i++;
1304*e4b17023SJohn Marino       }
1305*e4b17023SJohn Marino     else
1306*e4b17023SJohn Marino       {
1307*e4b17023SJohn Marino 	if (before)
1308*e4b17023SJohn Marino 	  {
1309*e4b17023SJohn Marino 	    if (LST_PBB (l) == pbb)
1310*e4b17023SJohn Marino 	      before = false;
1311*e4b17023SJohn Marino 
1312*e4b17023SJohn Marino 	    VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
1313*e4b17023SJohn Marino 	    free_lst (l);
1314*e4b17023SJohn Marino 	  }
1315*e4b17023SJohn Marino 	else if (LST_PBB (l) == pbb)
1316*e4b17023SJohn Marino 	  {
1317*e4b17023SJohn Marino 	    before = true;
1318*e4b17023SJohn Marino 	    VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
1319*e4b17023SJohn Marino 	    free_lst (l);
1320*e4b17023SJohn Marino 	  }
1321*e4b17023SJohn Marino 	else
1322*e4b17023SJohn Marino 	  i++;
1323*e4b17023SJohn Marino       }
1324*e4b17023SJohn Marino 
1325*e4b17023SJohn Marino   return before;
1326*e4b17023SJohn Marino }
1327*e4b17023SJohn Marino 
1328*e4b17023SJohn Marino /* Removes from LOOP all the statements before/after and excluding PBB
1329*e4b17023SJohn Marino    if BEFORE is true/false; Returns the negation of BEFORE when the
1330*e4b17023SJohn Marino    statement PBB has been found.  */
1331*e4b17023SJohn Marino 
1332*e4b17023SJohn Marino static inline bool
lst_remove_all_before_excluding_pbb(lst_p loop,poly_bb_p pbb,bool before)1333*e4b17023SJohn Marino lst_remove_all_before_excluding_pbb (lst_p loop, poly_bb_p pbb, bool before)
1334*e4b17023SJohn Marino {
1335*e4b17023SJohn Marino   int i;
1336*e4b17023SJohn Marino   lst_p l;
1337*e4b17023SJohn Marino 
1338*e4b17023SJohn Marino   if (!loop || !LST_LOOP_P (loop))
1339*e4b17023SJohn Marino     return before;
1340*e4b17023SJohn Marino 
1341*e4b17023SJohn Marino   for (i = 0; VEC_iterate (lst_p, LST_SEQ (loop), i, l);)
1342*e4b17023SJohn Marino     if (LST_LOOP_P (l))
1343*e4b17023SJohn Marino       {
1344*e4b17023SJohn Marino 	before = lst_remove_all_before_excluding_pbb (l, pbb, before);
1345*e4b17023SJohn Marino 
1346*e4b17023SJohn Marino 	if (VEC_length (lst_p, LST_SEQ (l)) == 0)
1347*e4b17023SJohn Marino 	  {
1348*e4b17023SJohn Marino 	    VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
1349*e4b17023SJohn Marino 	    free_lst (l);
1350*e4b17023SJohn Marino 	    continue;
1351*e4b17023SJohn Marino 	  }
1352*e4b17023SJohn Marino 
1353*e4b17023SJohn Marino 	i++;
1354*e4b17023SJohn Marino       }
1355*e4b17023SJohn Marino     else
1356*e4b17023SJohn Marino       {
1357*e4b17023SJohn Marino 	if (before && LST_PBB (l) != pbb)
1358*e4b17023SJohn Marino 	  {
1359*e4b17023SJohn Marino 	    VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
1360*e4b17023SJohn Marino 	    free_lst (l);
1361*e4b17023SJohn Marino 	    continue;
1362*e4b17023SJohn Marino 	  }
1363*e4b17023SJohn Marino 
1364*e4b17023SJohn Marino 	i++;
1365*e4b17023SJohn Marino 
1366*e4b17023SJohn Marino 	if (LST_PBB (l) == pbb)
1367*e4b17023SJohn Marino 	  before = before ? false : true;
1368*e4b17023SJohn Marino       }
1369*e4b17023SJohn Marino 
1370*e4b17023SJohn Marino   return before;
1371*e4b17023SJohn Marino }
1372*e4b17023SJohn Marino 
1373*e4b17023SJohn Marino /* A SCOP is a Static Control Part of the program, simple enough to be
1374*e4b17023SJohn Marino    represented in polyhedral form.  */
1375*e4b17023SJohn Marino struct scop
1376*e4b17023SJohn Marino {
1377*e4b17023SJohn Marino   /* A SCOP is defined as a SESE region.  */
1378*e4b17023SJohn Marino   void *region;
1379*e4b17023SJohn Marino 
1380*e4b17023SJohn Marino   /* Number of parameters in SCoP.  */
1381*e4b17023SJohn Marino   graphite_dim_t nb_params;
1382*e4b17023SJohn Marino 
1383*e4b17023SJohn Marino   /* All the basic blocks in this scop that contain memory references
1384*e4b17023SJohn Marino      and that will be represented as statements in the polyhedral
1385*e4b17023SJohn Marino      representation.  */
1386*e4b17023SJohn Marino   VEC (poly_bb_p, heap) *bbs;
1387*e4b17023SJohn Marino 
1388*e4b17023SJohn Marino   /* Original, transformed and saved schedules.  */
1389*e4b17023SJohn Marino   lst_p original_schedule, transformed_schedule, saved_schedule;
1390*e4b17023SJohn Marino 
1391*e4b17023SJohn Marino   /* The context describes known restrictions concerning the parameters
1392*e4b17023SJohn Marino      and relations in between the parameters.
1393*e4b17023SJohn Marino 
1394*e4b17023SJohn Marino   void f (int8_t a, uint_16_t b) {
1395*e4b17023SJohn Marino     c = 2 a + b;
1396*e4b17023SJohn Marino     ...
1397*e4b17023SJohn Marino   }
1398*e4b17023SJohn Marino 
1399*e4b17023SJohn Marino   Here we can add these restrictions to the context:
1400*e4b17023SJohn Marino 
1401*e4b17023SJohn Marino   -128 >= a >= 127
1402*e4b17023SJohn Marino      0 >= b >= 65,535
1403*e4b17023SJohn Marino      c = 2a + b  */
1404*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_t context;
1405*e4b17023SJohn Marino 
1406*e4b17023SJohn Marino   /* A hashtable of the data dependence relations for the original
1407*e4b17023SJohn Marino      scattering.  */
1408*e4b17023SJohn Marino   htab_t original_pddrs;
1409*e4b17023SJohn Marino 
1410*e4b17023SJohn Marino   /* True when the scop has been converted to its polyhedral
1411*e4b17023SJohn Marino      representation.  */
1412*e4b17023SJohn Marino   bool poly_scop_p;
1413*e4b17023SJohn Marino };
1414*e4b17023SJohn Marino 
1415*e4b17023SJohn Marino #define SCOP_BBS(S) (S->bbs)
1416*e4b17023SJohn Marino #define SCOP_REGION(S) ((sese) S->region)
1417*e4b17023SJohn Marino #define SCOP_CONTEXT(S) (S->context)
1418*e4b17023SJohn Marino #define SCOP_ORIGINAL_PDDRS(S) (S->original_pddrs)
1419*e4b17023SJohn Marino #define SCOP_ORIGINAL_SCHEDULE(S) (S->original_schedule)
1420*e4b17023SJohn Marino #define SCOP_TRANSFORMED_SCHEDULE(S) (S->transformed_schedule)
1421*e4b17023SJohn Marino #define SCOP_SAVED_SCHEDULE(S) (S->saved_schedule)
1422*e4b17023SJohn Marino #define POLY_SCOP_P(S) (S->poly_scop_p)
1423*e4b17023SJohn Marino 
1424*e4b17023SJohn Marino extern scop_p new_scop (void *);
1425*e4b17023SJohn Marino extern void free_scop (scop_p);
1426*e4b17023SJohn Marino extern void free_scops (VEC (scop_p, heap) *);
1427*e4b17023SJohn Marino extern void print_generated_program (FILE *, scop_p);
1428*e4b17023SJohn Marino extern void debug_generated_program (scop_p);
1429*e4b17023SJohn Marino extern void print_scattering_function (FILE *, poly_bb_p, int);
1430*e4b17023SJohn Marino extern void print_scattering_functions (FILE *, scop_p, int);
1431*e4b17023SJohn Marino extern void debug_scattering_function (poly_bb_p, int);
1432*e4b17023SJohn Marino extern void debug_scattering_functions (scop_p, int);
1433*e4b17023SJohn Marino extern int scop_max_loop_depth (scop_p);
1434*e4b17023SJohn Marino extern int unify_scattering_dimensions (scop_p);
1435*e4b17023SJohn Marino extern bool apply_poly_transforms (scop_p);
1436*e4b17023SJohn Marino extern bool graphite_legal_transform (scop_p);
1437*e4b17023SJohn Marino extern void cloog_checksum (scop_p);
1438*e4b17023SJohn Marino 
1439*e4b17023SJohn Marino /* Set the region of SCOP to REGION.  */
1440*e4b17023SJohn Marino 
1441*e4b17023SJohn Marino static inline void
scop_set_region(scop_p scop,void * region)1442*e4b17023SJohn Marino scop_set_region (scop_p scop, void *region)
1443*e4b17023SJohn Marino {
1444*e4b17023SJohn Marino   scop->region = region;
1445*e4b17023SJohn Marino }
1446*e4b17023SJohn Marino 
1447*e4b17023SJohn Marino /* Returns the number of parameters for SCOP.  */
1448*e4b17023SJohn Marino 
1449*e4b17023SJohn Marino static inline graphite_dim_t
scop_nb_params(scop_p scop)1450*e4b17023SJohn Marino scop_nb_params (scop_p scop)
1451*e4b17023SJohn Marino {
1452*e4b17023SJohn Marino   return scop->nb_params;
1453*e4b17023SJohn Marino }
1454*e4b17023SJohn Marino 
1455*e4b17023SJohn Marino /* Set the number of params of SCOP to NB_PARAMS.  */
1456*e4b17023SJohn Marino 
1457*e4b17023SJohn Marino static inline void
scop_set_nb_params(scop_p scop,graphite_dim_t nb_params)1458*e4b17023SJohn Marino scop_set_nb_params (scop_p scop, graphite_dim_t nb_params)
1459*e4b17023SJohn Marino {
1460*e4b17023SJohn Marino   scop->nb_params = nb_params;
1461*e4b17023SJohn Marino }
1462*e4b17023SJohn Marino 
1463*e4b17023SJohn Marino /* Allocates a new empty poly_scattering structure.  */
1464*e4b17023SJohn Marino 
1465*e4b17023SJohn Marino static inline poly_scattering_p
poly_scattering_new(void)1466*e4b17023SJohn Marino poly_scattering_new (void)
1467*e4b17023SJohn Marino {
1468*e4b17023SJohn Marino   poly_scattering_p res = XNEW (struct poly_scattering);
1469*e4b17023SJohn Marino 
1470*e4b17023SJohn Marino   res->scattering = NULL;
1471*e4b17023SJohn Marino   res->nb_local_variables = 0;
1472*e4b17023SJohn Marino   res->nb_scattering = 0;
1473*e4b17023SJohn Marino   return res;
1474*e4b17023SJohn Marino }
1475*e4b17023SJohn Marino 
1476*e4b17023SJohn Marino /* Free a poly_scattering structure.  */
1477*e4b17023SJohn Marino 
1478*e4b17023SJohn Marino static inline void
poly_scattering_free(poly_scattering_p s)1479*e4b17023SJohn Marino poly_scattering_free (poly_scattering_p s)
1480*e4b17023SJohn Marino {
1481*e4b17023SJohn Marino   ppl_delete_Polyhedron (s->scattering);
1482*e4b17023SJohn Marino   free (s);
1483*e4b17023SJohn Marino }
1484*e4b17023SJohn Marino 
1485*e4b17023SJohn Marino /* Copies S and return a new scattering.  */
1486*e4b17023SJohn Marino 
1487*e4b17023SJohn Marino static inline poly_scattering_p
poly_scattering_copy(poly_scattering_p s)1488*e4b17023SJohn Marino poly_scattering_copy (poly_scattering_p s)
1489*e4b17023SJohn Marino {
1490*e4b17023SJohn Marino   poly_scattering_p res = poly_scattering_new ();
1491*e4b17023SJohn Marino 
1492*e4b17023SJohn Marino   ppl_new_C_Polyhedron_from_C_Polyhedron (&(res->scattering), s->scattering);
1493*e4b17023SJohn Marino   res->nb_local_variables = s->nb_local_variables;
1494*e4b17023SJohn Marino   res->nb_scattering = s->nb_scattering;
1495*e4b17023SJohn Marino   return res;
1496*e4b17023SJohn Marino }
1497*e4b17023SJohn Marino 
1498*e4b17023SJohn Marino /* Saves the transformed scattering of PBB.  */
1499*e4b17023SJohn Marino 
1500*e4b17023SJohn Marino static inline void
store_scattering_pbb(poly_bb_p pbb)1501*e4b17023SJohn Marino store_scattering_pbb (poly_bb_p pbb)
1502*e4b17023SJohn Marino {
1503*e4b17023SJohn Marino   gcc_assert (PBB_TRANSFORMED (pbb));
1504*e4b17023SJohn Marino 
1505*e4b17023SJohn Marino   if (PBB_SAVED (pbb))
1506*e4b17023SJohn Marino     poly_scattering_free (PBB_SAVED (pbb));
1507*e4b17023SJohn Marino 
1508*e4b17023SJohn Marino   PBB_SAVED (pbb) = poly_scattering_copy (PBB_TRANSFORMED (pbb));
1509*e4b17023SJohn Marino }
1510*e4b17023SJohn Marino 
1511*e4b17023SJohn Marino /* Stores the SCOP_TRANSFORMED_SCHEDULE to SCOP_SAVED_SCHEDULE.  */
1512*e4b17023SJohn Marino 
1513*e4b17023SJohn Marino static inline void
store_lst_schedule(scop_p scop)1514*e4b17023SJohn Marino store_lst_schedule (scop_p scop)
1515*e4b17023SJohn Marino {
1516*e4b17023SJohn Marino   if (SCOP_SAVED_SCHEDULE (scop))
1517*e4b17023SJohn Marino     free_lst (SCOP_SAVED_SCHEDULE (scop));
1518*e4b17023SJohn Marino 
1519*e4b17023SJohn Marino   SCOP_SAVED_SCHEDULE (scop) = copy_lst (SCOP_TRANSFORMED_SCHEDULE (scop));
1520*e4b17023SJohn Marino }
1521*e4b17023SJohn Marino 
1522*e4b17023SJohn Marino /* Restores the SCOP_TRANSFORMED_SCHEDULE from SCOP_SAVED_SCHEDULE.  */
1523*e4b17023SJohn Marino 
1524*e4b17023SJohn Marino static inline void
restore_lst_schedule(scop_p scop)1525*e4b17023SJohn Marino restore_lst_schedule (scop_p scop)
1526*e4b17023SJohn Marino {
1527*e4b17023SJohn Marino   if (SCOP_TRANSFORMED_SCHEDULE (scop))
1528*e4b17023SJohn Marino     free_lst (SCOP_TRANSFORMED_SCHEDULE (scop));
1529*e4b17023SJohn Marino 
1530*e4b17023SJohn Marino   SCOP_TRANSFORMED_SCHEDULE (scop) = copy_lst (SCOP_SAVED_SCHEDULE (scop));
1531*e4b17023SJohn Marino }
1532*e4b17023SJohn Marino 
1533*e4b17023SJohn Marino /* Saves the scattering for all the pbbs in the SCOP.  */
1534*e4b17023SJohn Marino 
1535*e4b17023SJohn Marino static inline void
store_scattering(scop_p scop)1536*e4b17023SJohn Marino store_scattering (scop_p scop)
1537*e4b17023SJohn Marino {
1538*e4b17023SJohn Marino   int i;
1539*e4b17023SJohn Marino   poly_bb_p pbb;
1540*e4b17023SJohn Marino 
1541*e4b17023SJohn Marino   for (i = 0; VEC_iterate (poly_bb_p, SCOP_BBS (scop), i, pbb); i++)
1542*e4b17023SJohn Marino     store_scattering_pbb (pbb);
1543*e4b17023SJohn Marino 
1544*e4b17023SJohn Marino   store_lst_schedule (scop);
1545*e4b17023SJohn Marino }
1546*e4b17023SJohn Marino 
1547*e4b17023SJohn Marino /* Restores the scattering of PBB.  */
1548*e4b17023SJohn Marino 
1549*e4b17023SJohn Marino static inline void
restore_scattering_pbb(poly_bb_p pbb)1550*e4b17023SJohn Marino restore_scattering_pbb (poly_bb_p pbb)
1551*e4b17023SJohn Marino {
1552*e4b17023SJohn Marino   gcc_assert (PBB_SAVED (pbb));
1553*e4b17023SJohn Marino 
1554*e4b17023SJohn Marino   poly_scattering_free (PBB_TRANSFORMED (pbb));
1555*e4b17023SJohn Marino   PBB_TRANSFORMED (pbb) = poly_scattering_copy (PBB_SAVED (pbb));
1556*e4b17023SJohn Marino }
1557*e4b17023SJohn Marino 
1558*e4b17023SJohn Marino /* Restores the scattering for all the pbbs in the SCOP.  */
1559*e4b17023SJohn Marino 
1560*e4b17023SJohn Marino static inline void
restore_scattering(scop_p scop)1561*e4b17023SJohn Marino restore_scattering (scop_p scop)
1562*e4b17023SJohn Marino {
1563*e4b17023SJohn Marino   int i;
1564*e4b17023SJohn Marino   poly_bb_p pbb;
1565*e4b17023SJohn Marino 
1566*e4b17023SJohn Marino   for (i = 0; VEC_iterate (poly_bb_p, SCOP_BBS (scop), i, pbb); i++)
1567*e4b17023SJohn Marino     restore_scattering_pbb (pbb);
1568*e4b17023SJohn Marino 
1569*e4b17023SJohn Marino   restore_lst_schedule (scop);
1570*e4b17023SJohn Marino }
1571*e4b17023SJohn Marino 
1572*e4b17023SJohn Marino /* For a given PBB, add to RES the scop context, the iteration domain,
1573*e4b17023SJohn Marino    the original scattering when ORIGINAL_P is true, otherwise add the
1574*e4b17023SJohn Marino    transformed scattering.  */
1575*e4b17023SJohn Marino 
1576*e4b17023SJohn Marino static inline void
combine_context_id_scat(ppl_Pointset_Powerset_C_Polyhedron_t * res,poly_bb_p pbb,bool original_p)1577*e4b17023SJohn Marino combine_context_id_scat (ppl_Pointset_Powerset_C_Polyhedron_t *res,
1578*e4b17023SJohn Marino 			 poly_bb_p pbb, bool original_p)
1579*e4b17023SJohn Marino {
1580*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_t context;
1581*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_t id;
1582*e4b17023SJohn Marino 
1583*e4b17023SJohn Marino   ppl_new_Pointset_Powerset_C_Polyhedron_from_C_Polyhedron
1584*e4b17023SJohn Marino     (res, original_p ?
1585*e4b17023SJohn Marino      PBB_ORIGINAL_SCATTERING (pbb) : PBB_TRANSFORMED_SCATTERING (pbb));
1586*e4b17023SJohn Marino 
1587*e4b17023SJohn Marino   ppl_new_Pointset_Powerset_C_Polyhedron_from_Pointset_Powerset_C_Polyhedron
1588*e4b17023SJohn Marino     (&context, SCOP_CONTEXT (PBB_SCOP (pbb)));
1589*e4b17023SJohn Marino 
1590*e4b17023SJohn Marino   ppl_new_Pointset_Powerset_C_Polyhedron_from_Pointset_Powerset_C_Polyhedron
1591*e4b17023SJohn Marino     (&id, PBB_DOMAIN (pbb));
1592*e4b17023SJohn Marino 
1593*e4b17023SJohn Marino   /* Extend the context and the iteration domain to the dimension of
1594*e4b17023SJohn Marino      the scattering: T|I|G.  */
1595*e4b17023SJohn Marino   {
1596*e4b17023SJohn Marino     ppl_dimension_type gdim, tdim, idim;
1597*e4b17023SJohn Marino 
1598*e4b17023SJohn Marino     ppl_Pointset_Powerset_C_Polyhedron_space_dimension (*res, &tdim);
1599*e4b17023SJohn Marino     ppl_Pointset_Powerset_C_Polyhedron_space_dimension (context, &gdim);
1600*e4b17023SJohn Marino     ppl_Pointset_Powerset_C_Polyhedron_space_dimension (id, &idim);
1601*e4b17023SJohn Marino 
1602*e4b17023SJohn Marino     if (tdim > gdim)
1603*e4b17023SJohn Marino       ppl_insert_dimensions_pointset (context, 0, tdim - gdim);
1604*e4b17023SJohn Marino 
1605*e4b17023SJohn Marino     if (tdim > idim)
1606*e4b17023SJohn Marino       ppl_insert_dimensions_pointset (id, 0, tdim - idim);
1607*e4b17023SJohn Marino   }
1608*e4b17023SJohn Marino 
1609*e4b17023SJohn Marino   /* Add the context and the iteration domain to the result.  */
1610*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_intersection_assign (*res, context);
1611*e4b17023SJohn Marino   ppl_Pointset_Powerset_C_Polyhedron_intersection_assign (*res, id);
1612*e4b17023SJohn Marino 
1613*e4b17023SJohn Marino   ppl_delete_Pointset_Powerset_C_Polyhedron (context);
1614*e4b17023SJohn Marino   ppl_delete_Pointset_Powerset_C_Polyhedron (id);
1615*e4b17023SJohn Marino }
1616*e4b17023SJohn Marino 
1617*e4b17023SJohn Marino #endif
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