CUDA backend: do not declare or allocate arrays that are not accessed
[ppcg.git] / gpu.h
blob4ac0940ec823e7db95735bd163e943e11a456430
1 #ifndef _GPU_H
2 #define _GPU_H
4 #include <isl/ast.h>
5 #include <isl/id_to_ast_expr.h>
7 #include "ppcg.h"
8 #include "ppcg_options.h"
10 /* Represents an outer array possibly accessed by a gpu_prog.
11 * If this outer array contains structures, then the references are not
12 * collected and the reference groups are not computed.
14 struct gpu_array_info {
15 /* The array data space. */
16 isl_space *space;
17 /* Element type. */
18 char *type;
19 /* Element size. */
20 int size;
21 /* Name of the array. */
22 char *name;
23 /* Extent of the array that needs to be copied. */
24 isl_set *extent;
25 /* Number of indices. */
26 unsigned n_index;
27 /* For each index, a bound on "extent" in that direction. */
28 isl_pw_aff **bound;
30 /* All references to this array; point to elements of a linked list. */
31 int n_ref;
32 struct gpu_stmt_access **refs;
34 /* The reference groups associated to this array. */
35 int n_group;
36 struct gpu_array_ref_group **groups;
38 /* Is this array accessed at all by the program? */
39 int accessed;
41 /* Is this a scalar that is read-only within the entire program? */
42 int read_only_scalar;
44 /* Are the elements of the array structures? */
45 int has_compound_element;
47 /* Is the array local to the scop? */
48 int local;
50 /* Should the array be linearized? */
51 int linearize;
53 /* Order dependences on this array.
54 * Only used if live_range_reordering option is set.
55 * It is set to NULL otherwise.
57 isl_union_map *dep_order;
58 /* Should the array (scalar) be forcibly mapped to a register? */
59 int force_private;
62 /* For each index i with 0 <= i < n_index,
63 * bound[i] is equal to array->bound[i] specialized to the current kernel.
65 struct gpu_local_array_info {
66 unsigned n_index;
67 isl_pw_aff_list *bound;
70 __isl_give isl_ast_expr *gpu_local_array_info_linearize_index(
71 struct gpu_local_array_info *array, __isl_take isl_ast_expr *expr);
73 /* A sequence of "n" names of types.
75 struct gpu_types {
76 int n;
77 char **name;
80 /* "read" and "write" contain the original access relations, possibly
81 * involving member accesses.
83 * The elements of "array", as well as the ranges of "copy_in" and "copy_out"
84 * only refer to the outer arrays of any possible member accesses.
86 struct gpu_prog {
87 isl_ctx *ctx;
89 struct ppcg_scop *scop;
91 /* Set of parameter values */
92 isl_set *context;
94 /* All potential read accesses in the entire program */
95 isl_union_map *read;
97 /* All potential write accesses in the entire program */
98 isl_union_map *may_write;
99 /* All definite write accesses in the entire program */
100 isl_union_map *must_write;
101 /* All tagged definite kills in the entire program */
102 isl_union_map *tagged_must_kill;
104 /* The set of inner array elements that may be preserved. */
105 isl_union_set *may_persist;
107 /* Set of outer array elements that need to be copied in. */
108 isl_union_set *copy_in;
109 /* Set of outer array elements that need to be copied out. */
110 isl_union_set *copy_out;
112 /* A mapping from all innermost arrays to their outer arrays. */
113 isl_union_map *to_outer;
114 /* A mapping from the outer arrays to all corresponding inner arrays. */
115 isl_union_map *to_inner;
116 /* A mapping from all intermediate arrays to their outer arrays,
117 * including an identity mapping from the anoymous 1D space to itself.
119 isl_union_map *any_to_outer;
121 /* Order dependences on non-scalars. */
122 isl_union_map *array_order;
124 /* Array of statements */
125 int n_stmts;
126 struct gpu_stmt *stmts;
128 int n_array;
129 struct gpu_array_info *array;
132 enum ppcg_kernel_access_type {
133 ppcg_access_global,
134 ppcg_access_shared,
135 ppcg_access_private
138 enum ppcg_kernel_stmt_type {
139 ppcg_kernel_copy,
140 ppcg_kernel_domain,
141 ppcg_kernel_sync
144 /* Representation of special statements, in particular copy statements
145 * and __syncthreads statements, inside a kernel.
147 * type represents the kind of statement
150 * for ppcg_kernel_copy statements we have
152 * read is set if the statement should copy data from global memory
153 * to shared memory or registers.
155 * index expresses an access to the array element that needs to be copied
156 * local_index expresses the corresponding element in the tile
158 * array refers to the original array being copied
159 * local_array is a pointer to the appropriate element in the "array"
160 * array of the ppcg_kernel to which this copy access belongs
163 * for ppcg_kernel_domain statements we have
165 * stmt is the corresponding input statement
167 * n_access is the number of accesses in stmt
168 * access is an array of local information about the accesses
170 struct ppcg_kernel_stmt {
171 enum ppcg_kernel_stmt_type type;
173 union {
174 struct {
175 int read;
176 isl_ast_expr *index;
177 isl_ast_expr *local_index;
178 struct gpu_array_info *array;
179 struct gpu_local_array_info *local_array;
180 } c;
181 struct {
182 struct gpu_stmt *stmt;
183 isl_id_to_ast_expr *ref2expr;
184 } d;
185 } u;
188 /* Representation of a local variable in a kernel.
190 struct ppcg_kernel_var {
191 struct gpu_array_info *array;
192 enum ppcg_kernel_access_type type;
193 char *name;
194 isl_vec *size;
197 /* Representation of a kernel.
199 * id is the sequence number of the kernel.
201 * block_ids contains the list of block identifiers for this kernel.
202 * thread_ids contains the list of thread identifiers for this kernel.
204 * the first n_block elements of block_dim represent the effective size
205 * of the block.
207 * grid_size reflects the effective grid size.
209 * context is a parametric set containing the values of the parameters
210 * for which this kernel may be run.
212 * arrays is the set of possibly accessed outer array elements.
214 * space is the schedule space of the AST context. That is, it represents
215 * the loops of the generated host code containing the kernel launch.
217 * n_array is the total number of arrays in the input program and also
218 * the number of element in the array array.
219 * array contains information about each array that is local
220 * to the current kernel. If an array is not used in a kernel,
221 * then the corresponding entry does not contain any information.
223 struct ppcg_kernel {
224 int id;
226 isl_id_list *block_ids;
227 isl_id_list *thread_ids;
229 int n_block;
230 int block_dim[3];
232 isl_multi_pw_aff *grid_size;
233 isl_set *context;
235 isl_union_set *arrays;
237 isl_space *space;
239 int n_array;
240 struct gpu_local_array_info *array;
242 int n_var;
243 struct ppcg_kernel_var *var;
245 isl_ast_node *tree;
248 int gpu_array_is_scalar(struct gpu_array_info *array);
249 int gpu_array_is_read_only_scalar(struct gpu_array_info *array);
250 __isl_give isl_set *gpu_array_positive_size_guard(struct gpu_array_info *array);
252 struct gpu_prog *gpu_prog_alloc(isl_ctx *ctx, struct ppcg_scop *scop);
253 void *gpu_prog_free(struct gpu_prog *prog);
255 int generate_gpu(isl_ctx *ctx, const char *input, FILE *out,
256 struct ppcg_options *options,
257 __isl_give isl_printer *(*print)(__isl_take isl_printer *p,
258 struct gpu_prog *prog, __isl_keep isl_ast_node *tree,
259 struct gpu_types *types, void *user), void *user);
261 #endif