xref: /freebsd/contrib/llvm-project/openmp/runtime/src/kmp_collapse.h (revision a03411e84728e9b267056fd31c7d1d9d1dc1b01e)
1 /*
2  * kmp_collapse.h -- header for loop collapse feature
3  */
4 
5 //===----------------------------------------------------------------------===//
6 //
7 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
8 // See https://llvm.org/LICENSE.txt for license information.
9 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #ifndef KMP_COLLAPSE_H
14 #define KMP_COLLAPSE_H
15 
16 #include <type_traits>
17 
18 // Type of the index into the loop nest structures
19 // (with values from 0 to less than n from collapse(n))
20 typedef kmp_int32 kmp_index_t;
21 
22 // Type for combined loop nest space IV:
23 typedef kmp_uint64 kmp_loop_nest_iv_t;
24 
25 // Loop has <, <=, etc. as a comparison:
26 enum comparison_t : kmp_int32 {
27   comp_less_or_eq = 0,
28   comp_greater_or_eq = 1,
29   comp_not_eq = 2,
30   comp_less = 3,
31   comp_greater = 4
32 };
33 
34 // Type of loop IV.
35 // Type of bounds and step, after usual promotions
36 // are a subset of these types (32 & 64 only):
37 enum loop_type_t : kmp_int32 {
38   loop_type_uint8 = 0,
39   loop_type_int8 = 1,
40   loop_type_uint16 = 2,
41   loop_type_int16 = 3,
42   loop_type_uint32 = 4,
43   loop_type_int32 = 5,
44   loop_type_uint64 = 6,
45   loop_type_int64 = 7
46 };
47 
48 /*!
49  @ingroup WORK_SHARING
50  * Describes the structure for rectangular nested loops.
51  */
52 template <typename T> struct bounds_infoXX_template {
53 
54   // typedef typename traits_t<T>::unsigned_t UT;
55   typedef typename traits_t<T>::signed_t ST;
56 
57   loop_type_t loop_type; // The differentiator
58   loop_type_t loop_iv_type;
59   comparison_t comparison;
60   // outer_iv should be 0 (or any other less then number of dimentions)
61   // if loop doesn't depend on it (lb1 and ub1 will be 0).
62   // This way we can do multiplication without a check.
63   kmp_index_t outer_iv;
64 
65   // unions to keep the size constant:
66   union {
67     T lb0;
68     kmp_uint64 lb0_u64; // real type can be signed
69   };
70 
71   union {
72     T lb1;
73     kmp_uint64 lb1_u64; // real type can be signed
74   };
75 
76   union {
77     T ub0;
78     kmp_uint64 ub0_u64; // real type can be signed
79   };
80 
81   union {
82     T ub1;
83     kmp_uint64 ub1_u64; // real type can be signed
84   };
85 
86   union {
87     ST step; // signed even if bounds type is unsigned
88     kmp_int64 step_64; // signed
89   };
90 
91   kmp_loop_nest_iv_t trip_count;
92 };
93 
94 /*!
95  @ingroup WORK_SHARING
96  * Interface struct for rectangular nested loops.
97  * Same size as bounds_infoXX_template.
98  */
99 struct bounds_info_t {
100 
101   loop_type_t loop_type; // The differentiator
102   loop_type_t loop_iv_type;
103   comparison_t comparison;
104   // outer_iv should be 0  (or any other less then number of dimentions)
105   // if loop doesn't depend on it (lb1 and ub1 will be 0).
106   // This way we can do multiplication without a check.
107   kmp_index_t outer_iv;
108 
109   kmp_uint64 lb0_u64; // real type can be signed
110   kmp_uint64 lb1_u64; // real type can be signed
111   kmp_uint64 ub0_u64; // real type can be signed
112   kmp_uint64 ub1_u64; // real type can be signed
113   kmp_int64 step_64; // signed
114 
115   // This is internal, but it's the only internal thing we need
116   // in rectangular case, so let's expose it here:
117   kmp_loop_nest_iv_t trip_count;
118 };
119 
120 //-------------------------------------------------------------------------
121 // Additional types for internal representation:
122 
123 // Array for a point in the loop space, in the original space.
124 // It's represented in kmp_uint64, but each dimention is calculated in
125 // that loop IV type. Also dimentions have to be converted to those types
126 // when used in generated code.
127 typedef kmp_uint64* kmp_point_t;
128 
129 // Array: Number of loop iterations on each nesting level to achieve some point,
130 // in expanded space or in original space.
131 // OMPTODO: move from using iterations to using offsets (iterations multiplied
132 // by steps). For those we need to be careful with the types, as step can be
133 // negative, but it'll remove multiplications and divisions in several places.
134 typedef kmp_loop_nest_iv_t* kmp_iterations_t;
135 
136 // Internal struct with additional info:
137 template <typename T> struct bounds_info_internalXX_template {
138 
139   // OMPTODO: should span have type T or should it better be
140   // kmp_uint64/kmp_int64 depending on T sign? (if kmp_uint64/kmp_int64 than
141   // updated bounds should probably also be kmp_uint64/kmp_int64). I'd like to
142   // use big_span_t, if it can be resolved at compile time.
143   typedef
144       typename std::conditional<std::is_signed<T>::value, kmp_int64, kmp_uint64>
145           big_span_t;
146 
147   // typedef typename big_span_t span_t;
148   typedef T span_t;
149 
150   bounds_infoXX_template<T> b; // possibly adjusted bounds
151 
152   // Leaving this as a union in case we'll switch to span_t with different sizes
153   // (depending on T)
154   union {
155     // Smallest possible value of iv (may be smaller than actually possible)
156     span_t span_smallest;
157     kmp_uint64 span_smallest_u64;
158   };
159 
160   // Leaving this as a union in case we'll switch to span_t with different sizes
161   // (depending on T)
162   union {
163     // Biggest possible value of iv (may be bigger than actually possible)
164     span_t span_biggest;
165     kmp_uint64 span_biggest_u64;
166   };
167 
168   // Did we adjust loop bounds (not counting canonicalization)?
169   bool loop_bounds_adjusted;
170 };
171 
172 // Internal struct with additional info:
173 struct bounds_info_internal_t {
174 
175   bounds_info_t b; // possibly adjusted bounds
176 
177   // Smallest possible value of iv (may be smaller than actually possible)
178   kmp_uint64 span_smallest_u64;
179 
180   // Biggest possible value of iv (may be bigger than actually possible)
181   kmp_uint64 span_biggest_u64;
182 
183   // Did we adjust loop bounds (not counting canonicalization)?
184   bool loop_bounds_adjusted;
185 };
186 
187 //----------APIs for rectangular loop nests--------------------------------
188 
189 // Canonicalize loop nest and calculate overall trip count.
190 // "bounds_nest" has to be allocated per thread.
191 // API will modify original bounds_nest array to bring it to a canonical form
192 // (only <= and >=, no !=, <, >). If the original loop nest was already in a
193 // canonical form there will be no changes to bounds in bounds_nest array
194 // (only trip counts will be calculated).
195 // Returns trip count of overall space.
196 extern "C" kmp_loop_nest_iv_t
197 __kmpc_process_loop_nest_rectang(ident_t *loc, kmp_int32 gtid,
198                                  /*in/out*/ bounds_info_t *original_bounds_nest,
199                                  kmp_index_t n);
200 
201 // Calculate old induction variables corresponding to overall new_iv.
202 // Note: original IV will be returned as if it had kmp_uint64 type,
203 // will have to be converted to original type in user code.
204 // Note: trip counts should be already calculated by
205 // __kmpc_process_loop_nest_rectang.
206 // OMPTODO: special case 2, 3 nested loops - if it'll be possible to inline
207 // that into user code.
208 extern "C" void
209 __kmpc_calc_original_ivs_rectang(ident_t *loc, kmp_loop_nest_iv_t new_iv,
210                                  const bounds_info_t *original_bounds_nest,
211                                  /*out*/ kmp_uint64 *original_ivs,
212                                  kmp_index_t n);
213 
214 //----------Init API for non-rectangular loops--------------------------------
215 
216 // Init API for collapsed loops (static, no chunks defined).
217 // "bounds_nest" has to be allocated per thread.
218 // API will modify original bounds_nest array to bring it to a canonical form
219 // (only <= and >=, no !=, <, >). If the original loop nest was already in a
220 // canonical form there will be no changes to bounds in bounds_nest array
221 // (only trip counts will be calculated). Internally API will expand the space
222 // to parallelogram/parallelepiped, calculate total, calculate bounds for the
223 // chunks in terms of the new IV, re-calc them in terms of old IVs (especially
224 // important on the left side, to hit the lower bounds and not step over), and
225 // pick the correct chunk for this thread (so it will calculate chunks up to the
226 // needed one). It could be optimized to calculate just this chunk, potentially
227 // a bit less well distributed among threads. It is designed to make sure that
228 // threads will receive predictable chunks, deterministically (so that next nest
229 // of loops with similar characteristics will get exactly same chunks on same
230 // threads).
231 // Current contract: chunk_bounds_nest has only lb0 and ub0,
232 // lb1 and ub1 are set to 0 and can be ignored. (This may change in the future).
233 extern "C" kmp_int32
234 __kmpc_for_collapsed_init(ident_t *loc, kmp_int32 gtid,
235                           /*in/out*/ bounds_info_t *original_bounds_nest,
236                           /*out*/ bounds_info_t *chunk_bounds_nest,
237                           kmp_index_t n,
238                           /*out*/ kmp_int32 *plastiter);
239 
240 #endif // KMP_COLLAPSE_H
241