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isl_input.c 106.68 KB
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Sven Verdoolaege 提交于 2023-03-03 20:56 . Merge branch 'maint'
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/*
* Copyright 2008-2009 Katholieke Universiteit Leuven
* Copyright 2010 INRIA Saclay
* Copyright 2012-2013 Ecole Normale Superieure
* Copyright 2019,2022 Cerebras Systems
*
* Use of this software is governed by the MIT license
*
* Written by Sven Verdoolaege, K.U.Leuven, Departement
* Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium
* and INRIA Saclay - Ile-de-France, Parc Club Orsay Universite,
* ZAC des vignes, 4 rue Jacques Monod, 91893 Orsay, France
* and Ecole Normale Superieure, 45 rue d’Ulm, 75230 Paris, France
* and Cerebras Systems, 175 S San Antonio Rd, Los Altos, CA, USA
*/
#include <ctype.h>
#include <stdio.h>
#include <string.h>
#include <isl_ctx_private.h>
#include <isl_map_private.h>
#include <isl_id_private.h>
#include <isl/set.h>
#include <isl_seq.h>
#include <isl_stream_private.h>
#include <isl/obj.h>
#include "isl_polynomial_private.h"
#include <isl/union_set.h>
#include <isl/union_map.h>
#include <isl_mat_private.h>
#include <isl_aff_private.h>
#include <isl_vec_private.h>
#include <isl/list.h>
#include <isl_val_private.h>
struct variable {
char *name;
int pos;
struct variable *next;
};
struct vars {
struct isl_ctx *ctx;
int n;
struct variable *v;
};
static struct vars *vars_new(struct isl_ctx *ctx)
{
struct vars *v;
v = isl_alloc_type(ctx, struct vars);
if (!v)
return NULL;
v->ctx = ctx;
v->n = 0;
v->v = NULL;
return v;
}
static void variable_free(struct variable *var)
{
while (var) {
struct variable *next = var->next;
free(var->name);
free(var);
var = next;
}
}
static void vars_free(struct vars *v)
{
if (!v)
return;
variable_free(v->v);
free(v);
}
static void vars_drop(struct vars *v, int n)
{
struct variable *var;
if (!v || !v->v)
return;
v->n -= n;
var = v->v;
while (--n >= 0) {
struct variable *next = var->next;
free(var->name);
free(var);
var = next;
}
v->v = var;
}
static struct variable *variable_new(struct vars *v, const char *name, int len,
int pos)
{
struct variable *var;
var = isl_calloc_type(v->ctx, struct variable);
if (!var)
goto error;
var->name = strdup(name);
var->name[len] = '\0';
var->pos = pos;
var->next = v->v;
return var;
error:
variable_free(v->v);
return NULL;
}
static int vars_pos(struct vars *v, const char *s, int len)
{
int pos;
struct variable *q;
if (len == -1)
len = strlen(s);
for (q = v->v; q; q = q->next) {
if (strncmp(q->name, s, len) == 0 && q->name[len] == '\0')
break;
}
if (q)
pos = q->pos;
else {
pos = v->n;
v->v = variable_new(v, s, len, v->n);
if (!v->v)
return -1;
v->n++;
}
return pos;
}
static int vars_add_anon(struct vars *v)
{
v->v = variable_new(v, "", 0, v->n);
if (!v->v)
return -1;
v->n++;
return 0;
}
/* Obtain next token, with some preprocessing.
* In particular, evaluate expressions of the form x^y,
* with x and y values.
*/
static struct isl_token *next_token(__isl_keep isl_stream *s)
{
struct isl_token *tok, *tok2;
tok = isl_stream_next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE)
return tok;
if (!isl_stream_eat_if_available(s, '^'))
return tok;
tok2 = isl_stream_next_token(s);
if (!tok2 || tok2->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok2, "expecting constant value");
goto error;
}
isl_int_pow_ui(tok->u.v, tok->u.v, isl_int_get_ui(tok2->u.v));
isl_token_free(tok2);
return tok;
error:
isl_token_free(tok);
isl_token_free(tok2);
return NULL;
}
/* Read an isl_val from "s".
*
* The following token sequences are recognized
*
* "infty" -> infty
* "-" "infty" -> -infty
* "NaN" -> NaN
* n "/" d -> n/d
* "-" n "/" d -> -n/d
* v -> v
* "-" v -> -v
*
* where n, d and v are integer constants.
*/
__isl_give isl_val *isl_stream_read_val(__isl_keep isl_stream *s)
{
struct isl_token *tok = NULL;
struct isl_token *tok2 = NULL;
int sign = 1;
isl_val *val;
if (isl_stream_eat_if_available(s, '-'))
sign = -1;
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type == ISL_TOKEN_INFTY) {
isl_token_free(tok);
if (sign > 0)
return isl_val_infty(s->ctx);
else
return isl_val_neginfty(s->ctx);
}
if (sign > 0 && tok->type == ISL_TOKEN_NAN) {
isl_token_free(tok);
return isl_val_nan(s->ctx);
}
if (tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting value");
goto error;
}
if (sign < 0)
isl_int_neg(tok->u.v, tok->u.v);
if (isl_stream_eat_if_available(s, '/')) {
tok2 = next_token(s);
if (!tok2) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok2->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok2, "expecting value");
goto error;
}
val = isl_val_rat_from_isl_int(s->ctx, tok->u.v, tok2->u.v);
val = isl_val_normalize(val);
} else {
val = isl_val_int_from_isl_int(s->ctx, tok->u.v);
}
isl_token_free(tok);
isl_token_free(tok2);
return val;
error:
isl_token_free(tok);
isl_token_free(tok2);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE val
#include "isl_read_from_str_templ.c"
static isl_stat accept_cst_factor(__isl_keep isl_stream *s, isl_int *f)
{
struct isl_token *tok;
if (isl_stream_eat_if_available(s, '-'))
isl_int_neg(*f, *f);
tok = next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting constant value");
goto error;
}
isl_int_mul(*f, *f, tok->u.v);
isl_token_free(tok);
if (isl_stream_eat_if_available(s, '*'))
return accept_cst_factor(s, f);
return isl_stat_ok;
error:
isl_token_free(tok);
return isl_stat_error;
}
/* Given an affine expression aff, return an affine expression
* for aff % d, with d the next token on the stream, which is
* assumed to be a constant.
*
* We introduce an integer division q = [aff/d] and the result
* is set to aff - d q.
*/
static __isl_give isl_pw_aff *affine_mod(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_pw_aff *aff)
{
struct isl_token *tok;
isl_pw_aff *q;
tok = next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting constant value");
goto error;
}
q = isl_pw_aff_copy(aff);
q = isl_pw_aff_scale_down(q, tok->u.v);
q = isl_pw_aff_floor(q);
q = isl_pw_aff_scale(q, tok->u.v);
aff = isl_pw_aff_sub(aff, q);
isl_token_free(tok);
return aff;
error:
isl_pw_aff_free(aff);
isl_token_free(tok);
return NULL;
}
static __isl_give isl_pw_aff *accept_affine(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v);
static __isl_give isl_pw_aff_list *accept_affine_list(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v);
static __isl_give isl_pw_aff *accept_minmax(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v)
{
struct isl_token *tok;
isl_pw_aff_list *list = NULL;
int min;
tok = isl_stream_next_token(s);
if (!tok)
goto error;
min = tok->type == ISL_TOKEN_MIN;
isl_token_free(tok);
if (isl_stream_eat(s, '('))
goto error;
list = accept_affine_list(s, isl_space_copy(space), v);
if (!list)
goto error;
if (isl_stream_eat(s, ')'))
goto error;
isl_space_free(space);
return min ? isl_pw_aff_list_min(list) : isl_pw_aff_list_max(list);
error:
isl_space_free(space);
isl_pw_aff_list_free(list);
return NULL;
}
/* Divide "pa" by an integer constant read from the stream.
*/
static __isl_give isl_pw_aff *pw_aff_div_by_cst(__isl_keep isl_stream *s,
__isl_take isl_pw_aff *pa)
{
struct isl_token *tok;
tok = next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting denominator");
isl_token_free(tok);
return isl_pw_aff_free(pa);
}
pa = isl_pw_aff_scale_down(pa, tok->u.v);
isl_token_free(tok);
return pa;
}
/* Return the (signed) value that is next on the stream,
* using "next" to read the next token and printing "msg" in case of an error.
*/
static struct isl_token *next_signed_value_fn(__isl_keep isl_stream *s,
struct isl_token *(*next)(__isl_keep isl_stream *s), char *msg)
{
struct isl_token *tok;
int sign = 1;
if (isl_stream_eat_if_available(s, '-'))
sign = -1;
tok = next(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, msg);
isl_token_free(tok);
return NULL;
}
if (sign < 0)
isl_int_neg(tok->u.v, tok->u.v);
return tok;
}
/* Return the (signed) value that is next on the stream,
* printing "msg" in case of an error.
*/
static struct isl_token *next_signed_value(__isl_keep isl_stream *s, char *msg)
{
return next_signed_value_fn(s, &isl_stream_next_token, msg);
}
/* Return the (signed) value that is next on the stream,
* provided it is on the same line,
* printing "msg" in case of an error.
*/
static struct isl_token *next_signed_value_on_same_line(
__isl_keep isl_stream *s, char *msg)
{
return next_signed_value_fn(s,
&isl_stream_next_token_on_same_line, msg);
}
/* Is "tok" the start of an integer division?
*/
static int is_start_of_div(struct isl_token *tok)
{
if (!tok)
return 0;
if (tok->type == '[')
return 1;
if (tok->type == ISL_TOKEN_FLOOR)
return 1;
if (tok->type == ISL_TOKEN_CEIL)
return 1;
if (tok->type == ISL_TOKEN_FLOORD)
return 1;
if (tok->type == ISL_TOKEN_CEILD)
return 1;
return 0;
}
/* Read an integer division from "s" and return it as an isl_pw_aff.
*
* The integer division can be of the form
*
* [<affine expression>]
* floor(<affine expression>)
* ceil(<affine expression>)
* floord(<affine expression>,<denominator>)
* ceild(<affine expression>,<denominator>)
*/
static __isl_give isl_pw_aff *accept_div(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v)
{
int f = 0;
int c = 0;
int extra = 0;
isl_pw_aff *pwaff = NULL;
if (isl_stream_eat_if_available(s, ISL_TOKEN_FLOORD))
extra = f = 1;
else if (isl_stream_eat_if_available(s, ISL_TOKEN_CEILD))
extra = c = 1;
else if (isl_stream_eat_if_available(s, ISL_TOKEN_FLOOR))
f = 1;
else if (isl_stream_eat_if_available(s, ISL_TOKEN_CEIL))
c = 1;
if (f || c) {
if (isl_stream_eat(s, '('))
goto error;
} else {
if (isl_stream_eat(s, '['))
goto error;
}
pwaff = accept_affine(s, isl_space_copy(space), v);
if (extra) {
if (isl_stream_eat(s, ','))
goto error;
pwaff = pw_aff_div_by_cst(s, pwaff);
}
if (c)
pwaff = isl_pw_aff_ceil(pwaff);
else
pwaff = isl_pw_aff_floor(pwaff);
if (f || c) {
if (isl_stream_eat(s, ')'))
goto error;
} else {
if (isl_stream_eat(s, ']'))
goto error;
}
isl_space_free(space);
return pwaff;
error:
isl_space_free(space);
isl_pw_aff_free(pwaff);
return NULL;
}
static __isl_give isl_pw_aff *accept_affine_factor(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v)
{
struct isl_token *tok = NULL;
isl_pw_aff *res = NULL;
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type == ISL_TOKEN_AFF) {
res = isl_pw_aff_copy(tok->u.pwaff);
isl_token_free(tok);
} else if (tok->type == ISL_TOKEN_IDENT) {
int n = v->n;
int pos = vars_pos(v, tok->u.s, -1);
isl_aff *aff;
if (pos < 0)
goto error;
if (pos >= n) {
vars_drop(v, v->n - n);
isl_stream_error(s, tok, "unknown identifier");
goto error;
}
aff = isl_aff_zero_on_domain(isl_local_space_from_space(isl_space_copy(space)));
if (!aff)
goto error;
aff->v = isl_vec_set_element_si(aff->v, 2 + pos, 1);
if (!aff->v)
aff = isl_aff_free(aff);
res = isl_pw_aff_from_aff(aff);
isl_token_free(tok);
} else if (tok->type == ISL_TOKEN_VALUE) {
if (isl_stream_eat_if_available(s, '*') ||
isl_stream_next_token_is(s, ISL_TOKEN_IDENT)) {
if (isl_stream_eat_if_available(s, '-'))
isl_int_neg(tok->u.v, tok->u.v);
res = accept_affine_factor(s, isl_space_copy(space), v);
res = isl_pw_aff_scale(res, tok->u.v);
} else {
isl_local_space *ls;
isl_aff *aff;
ls = isl_local_space_from_space(isl_space_copy(space));
aff = isl_aff_zero_on_domain(ls);
aff = isl_aff_add_constant(aff, tok->u.v);
res = isl_pw_aff_from_aff(aff);
}
isl_token_free(tok);
} else if (tok->type == '(') {
isl_token_free(tok);
tok = NULL;
res = accept_affine(s, isl_space_copy(space), v);
if (!res)
goto error;
if (isl_stream_eat(s, ')'))
goto error;
} else if (is_start_of_div(tok)) {
isl_stream_push_token(s, tok);
tok = NULL;
res = accept_div(s, isl_space_copy(space), v);
} else if (tok->type == ISL_TOKEN_MIN || tok->type == ISL_TOKEN_MAX) {
isl_stream_push_token(s, tok);
tok = NULL;
res = accept_minmax(s, isl_space_copy(space), v);
} else {
isl_stream_error(s, tok, "expecting factor");
goto error;
}
if (isl_stream_eat_if_available(s, '%') ||
isl_stream_eat_if_available(s, ISL_TOKEN_MOD)) {
isl_space_free(space);
return affine_mod(s, v, res);
}
if (isl_stream_eat_if_available(s, '*')) {
isl_int f;
isl_int_init(f);
isl_int_set_si(f, 1);
if (accept_cst_factor(s, &f) < 0) {
isl_int_clear(f);
goto error2;
}
res = isl_pw_aff_scale(res, f);
isl_int_clear(f);
}
if (isl_stream_eat_if_available(s, '/'))
res = pw_aff_div_by_cst(s, res);
if (isl_stream_eat_if_available(s, ISL_TOKEN_INT_DIV))
res = isl_pw_aff_floor(pw_aff_div_by_cst(s, res));
isl_space_free(space);
return res;
error:
isl_token_free(tok);
error2:
isl_pw_aff_free(res);
isl_space_free(space);
return NULL;
}
/* Return a piecewise affine expression defined on the specified domain
* that represents NaN.
*/
static __isl_give isl_pw_aff *nan_on_domain(__isl_keep isl_space *space)
{
return isl_pw_aff_nan_on_domain_space(isl_space_copy(space));
}
static __isl_give isl_pw_aff *accept_affine(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v)
{
struct isl_token *tok = NULL;
isl_local_space *ls;
isl_pw_aff *res;
int op = 1;
int sign = 1;
ls = isl_local_space_from_space(isl_space_copy(space));
res = isl_pw_aff_from_aff(isl_aff_zero_on_domain(ls));
if (!res)
goto error;
for (;;) {
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type == '-') {
sign = -sign;
isl_token_free(tok);
continue;
}
if (tok->type == '(' || is_start_of_div(tok) ||
tok->type == ISL_TOKEN_MIN || tok->type == ISL_TOKEN_MAX ||
tok->type == ISL_TOKEN_IDENT ||
tok->type == ISL_TOKEN_VALUE ||
tok->type == ISL_TOKEN_AFF) {
isl_pw_aff *term;
if (tok->type == ISL_TOKEN_VALUE && sign < 0) {
isl_int_neg(tok->u.v, tok->u.v);
sign = 1;
}
isl_stream_push_token(s, tok);
tok = NULL;
term = accept_affine_factor(s,
isl_space_copy(space), v);
if (op * sign < 0)
res = isl_pw_aff_sub(res, term);
else
res = isl_pw_aff_add(res, term);
if (!res)
goto error;
} else if (tok->type == ISL_TOKEN_NAN) {
res = isl_pw_aff_add(res, nan_on_domain(space));
} else {
isl_stream_error(s, tok, "unexpected isl_token");
isl_stream_push_token(s, tok);
isl_pw_aff_free(res);
isl_space_free(space);
return NULL;
}
isl_token_free(tok);
tok = next_token(s);
sign = 1;
if (tok && tok->type == '-') {
op = -1;
isl_token_free(tok);
} else if (tok && tok->type == '+') {
op = 1;
isl_token_free(tok);
} else {
if (tok)
isl_stream_push_token(s, tok);
break;
}
}
isl_space_free(space);
return res;
error:
isl_space_free(space);
isl_token_free(tok);
isl_pw_aff_free(res);
return NULL;
}
/* Is "type" the type of a comparison operator between lists
* of affine expressions?
*/
static int is_list_comparator_type(int type)
{
switch (type) {
case ISL_TOKEN_LEX_LT:
case ISL_TOKEN_LEX_GT:
case ISL_TOKEN_LEX_LE:
case ISL_TOKEN_LEX_GE:
return 1;
default:
return 0;
}
}
static int is_comparator(struct isl_token *tok)
{
if (!tok)
return 0;
if (is_list_comparator_type(tok->type))
return 1;
switch (tok->type) {
case ISL_TOKEN_LT:
case ISL_TOKEN_GT:
case ISL_TOKEN_LE:
case ISL_TOKEN_GE:
case ISL_TOKEN_NE:
case '=':
return 1;
default:
return 0;
}
}
static __isl_give isl_map *read_formula(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational);
static __isl_give isl_pw_aff *accept_extended_affine(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v, int rational);
/* Accept a ternary operator, given the first argument.
*/
static __isl_give isl_pw_aff *accept_ternary(__isl_keep isl_stream *s,
__isl_take isl_map *cond, struct vars *v, int rational)
{
isl_space *space;
isl_pw_aff *pwaff1 = NULL, *pwaff2 = NULL, *pa_cond;
if (!cond)
return NULL;
if (isl_stream_eat(s, '?'))
goto error;
space = isl_space_wrap(isl_map_get_space(cond));
pwaff1 = accept_extended_affine(s, space, v, rational);
if (!pwaff1)
goto error;
if (isl_stream_eat(s, ':'))
goto error;
space = isl_pw_aff_get_domain_space(pwaff1);
pwaff2 = accept_extended_affine(s, space, v, rational);
if (!pwaff2)
goto error;
pa_cond = isl_set_indicator_function(isl_map_wrap(cond));
return isl_pw_aff_cond(pa_cond, pwaff1, pwaff2);
error:
isl_map_free(cond);
isl_pw_aff_free(pwaff1);
isl_pw_aff_free(pwaff2);
return NULL;
}
/* Set *line and *col to those of the next token, if any.
*/
static void set_current_line_col(__isl_keep isl_stream *s, int *line, int *col)
{
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
return;
*line = tok->line;
*col = tok->col;
isl_stream_push_token(s, tok);
}
/* Push a token encapsulating "pa" onto "s", with the given
* line and column.
*/
static isl_stat push_aff(__isl_keep isl_stream *s, int line, int col,
__isl_take isl_pw_aff *pa)
{
struct isl_token *tok;
tok = isl_token_new(s->ctx, line, col, 0);
if (!tok)
goto error;
tok->type = ISL_TOKEN_AFF;
tok->u.pwaff = pa;
isl_stream_push_token(s, tok);
return isl_stat_ok;
error:
isl_pw_aff_free(pa);
return isl_stat_error;
}
/* Is the next token a comparison operator?
*/
static int next_is_comparator(__isl_keep isl_stream *s)
{
int is_comp;
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
is_comp = is_comparator(tok);
isl_stream_push_token(s, tok);
return is_comp;
}
/* Accept an affine expression that may involve ternary operators.
* We first read an affine expression.
* If it is not followed by a comparison operator, we simply return it.
* Otherwise, we assume the affine expression is part of the first
* argument of a ternary operator and try to parse that.
*/
static __isl_give isl_pw_aff *accept_extended_affine(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v, int rational)
{
isl_map *cond;
isl_pw_aff *pwaff;
int line = -1, col = -1;
set_current_line_col(s, &line, &col);
pwaff = accept_affine(s, space, v);
if (rational)
pwaff = isl_pw_aff_set_rational(pwaff);
if (!pwaff)
return NULL;
if (!next_is_comparator(s))
return pwaff;
space = isl_pw_aff_get_domain_space(pwaff);
cond = isl_map_universe(isl_space_unwrap(space));
if (push_aff(s, line, col, pwaff) < 0)
cond = isl_map_free(cond);
if (!cond)
return NULL;
cond = read_formula(s, v, cond, rational);
return accept_ternary(s, cond, v, rational);
}
static __isl_give isl_map *read_var_def(__isl_keep isl_stream *s,
__isl_take isl_map *map, enum isl_dim_type type, struct vars *v,
int rational)
{
isl_pw_aff *def;
isl_size pos;
isl_map *def_map;
if (type == isl_dim_param)
pos = isl_map_dim(map, isl_dim_param);
else {
pos = isl_map_dim(map, isl_dim_in);
if (type == isl_dim_out) {
isl_size n_out = isl_map_dim(map, isl_dim_out);
if (pos < 0 || n_out < 0)
return isl_map_free(map);
pos += n_out;
}
type = isl_dim_in;
}
if (pos < 0)
return isl_map_free(map);
--pos;
def = accept_extended_affine(s, isl_space_wrap(isl_map_get_space(map)),
v, rational);
def_map = isl_map_from_pw_aff(def);
def_map = isl_map_equate(def_map, type, pos, isl_dim_out, 0);
def_map = isl_set_unwrap(isl_map_domain(def_map));
map = isl_map_intersect(map, def_map);
return map;
}
static __isl_give isl_pw_aff_list *accept_affine_list(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v)
{
isl_pw_aff *pwaff;
isl_pw_aff_list *list;
struct isl_token *tok = NULL;
pwaff = accept_affine(s, isl_space_copy(space), v);
list = isl_pw_aff_list_from_pw_aff(pwaff);
if (!list)
goto error;
for (;;) {
tok = isl_stream_next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type != ',') {
isl_stream_push_token(s, tok);
break;
}
isl_token_free(tok);
pwaff = accept_affine(s, isl_space_copy(space), v);
list = isl_pw_aff_list_concat(list,
isl_pw_aff_list_from_pw_aff(pwaff));
if (!list)
goto error;
}
isl_space_free(space);
return list;
error:
isl_space_free(space);
isl_pw_aff_list_free(list);
return NULL;
}
static __isl_give isl_map *read_defined_var_list(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
struct isl_token *tok;
while ((tok = isl_stream_next_token(s)) != NULL) {
int p;
int n = v->n;
if (tok->type != ISL_TOKEN_IDENT)
break;
p = vars_pos(v, tok->u.s, -1);
if (p < 0)
goto error;
if (p < n) {
isl_stream_error(s, tok, "expecting unique identifier");
goto error;
}
map = isl_map_add_dims(map, isl_dim_out, 1);
isl_token_free(tok);
tok = isl_stream_next_token(s);
if (tok && tok->type == '=') {
isl_token_free(tok);
map = read_var_def(s, map, isl_dim_out, v, rational);
tok = isl_stream_next_token(s);
}
if (!tok || tok->type != ',')
break;
isl_token_free(tok);
}
if (tok)
isl_stream_push_token(s, tok);
return map;
error:
isl_token_free(tok);
isl_map_free(map);
return NULL;
}
static int next_is_tuple(__isl_keep isl_stream *s)
{
struct isl_token *tok;
int is_tuple;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type == '[') {
isl_stream_push_token(s, tok);
return 1;
}
if (tok->type != ISL_TOKEN_IDENT && !tok->is_keyword) {
isl_stream_push_token(s, tok);
return 0;
}
is_tuple = isl_stream_next_token_is(s, '[');
isl_stream_push_token(s, tok);
return is_tuple;
}
/* Does the next token mark the end of a tuple element?
*/
static int next_is_end_tuple_element(__isl_keep isl_stream *s)
{
return isl_stream_next_token_is(s, ',') ||
isl_stream_next_token_is(s, ']');
}
/* Is the next token one that necessarily forms the start of a condition?
*/
static int next_is_condition_start(__isl_keep isl_stream *s)
{
return isl_stream_next_token_is(s, ISL_TOKEN_EXISTS) ||
isl_stream_next_token_is(s, ISL_TOKEN_NOT) ||
isl_stream_next_token_is(s, ISL_TOKEN_TRUE) ||
isl_stream_next_token_is(s, ISL_TOKEN_FALSE) ||
isl_stream_next_token_is(s, ISL_TOKEN_MAP);
}
/* Is "pa" an expression in term of earlier dimensions?
* The alternative is that the dimension is defined to be equal to itself,
* meaning that it has a universe domain and an expression that depends
* on itself. "i" is the position of the expression in a sequence
* of "n" expressions. The final dimensions of "pa" correspond to
* these "n" expressions.
*/
static isl_bool pw_aff_is_expr(__isl_keep isl_pw_aff *pa, int i, int n)
{
isl_aff *aff;
if (!pa)
return isl_bool_error;
if (pa->n != 1)
return isl_bool_true;
if (!isl_set_plain_is_universe(pa->p[0].set))
return isl_bool_true;
aff = pa->p[0].aff;
if (isl_int_is_zero(aff->v->el[aff->v->size - n + i]))
return isl_bool_true;
return isl_bool_false;
}
/* Does the tuple contain any dimensions that are defined
* in terms of earlier dimensions?
*/
static isl_bool tuple_has_expr(__isl_keep isl_multi_pw_aff *tuple)
{
int i;
isl_size n;
isl_bool has_expr = isl_bool_false;
isl_pw_aff *pa;
n = isl_multi_pw_aff_dim(tuple, isl_dim_out);
if (n < 0)
return isl_bool_error;
for (i = 0; i < n; ++i) {
pa = isl_multi_pw_aff_get_pw_aff(tuple, i);
has_expr = pw_aff_is_expr(pa, i, n);
isl_pw_aff_free(pa);
if (has_expr < 0 || has_expr)
break;
}
return has_expr;
}
/* Set the name of dimension "pos" in "space" to "name".
* During printing, we add primes if the same name appears more than once
* to distinguish the occurrences. Here, we remove those primes from "name"
* before setting the name of the dimension.
*/
static __isl_give isl_space *space_set_dim_name(__isl_take isl_space *space,
int pos, char *name)
{
char *prime;
if (!name)
return space;
prime = strchr(name, '\'');
if (prime)
*prime = '\0';
space = isl_space_set_dim_name(space, isl_dim_out, pos, name);
if (prime)
*prime = '\'';
return space;
}
/* Set the name of the last (output) dimension of "space" to "name",
* ignoring any primes in "name".
*/
static __isl_give isl_space *space_set_last_dim_name(
__isl_take isl_space *space, char *name)
{
isl_size pos;
pos = isl_space_dim(space, isl_dim_out);
if (pos < 0)
return isl_space_free(space);
return space_set_dim_name(space, pos - 1, name);
}
/* Construct an isl_pw_aff defined on a "space" (with v->n variables)
* that is equal to the last of those variables.
*/
static __isl_give isl_pw_aff *identity_tuple_el_on_space(
__isl_take isl_space *space, struct vars *v)
{
isl_aff *aff;
aff = isl_aff_zero_on_domain(isl_local_space_from_space(space));
aff = isl_aff_add_coefficient_si(aff, isl_dim_in, v->n - 1, 1);
return isl_pw_aff_from_aff(aff);
}
/* Construct an isl_pw_aff defined on the domain space of "pa"
* that is equal to the last variable in "v".
*
* That is, if D is the domain space of "pa", then construct
*
* D[..., i] -> i.
*/
static __isl_give isl_pw_aff *init_range(__isl_keep isl_pw_aff *pa,
struct vars *v)
{
isl_space *space;
space = isl_pw_aff_get_domain_space(pa);
return identity_tuple_el_on_space(space, v);
}
/* Impose the lower bound "lower" on the variable represented by "range_pa".
*
* In particular, "range_pa" is of the form
*
* D[..., i] -> i : C
*
* with D also the domains space of "lower' and "C" some constraints.
*
* Return the expression
*
* D[..., i] -> i : C and i >= lower
*/
static __isl_give isl_pw_aff *set_lower(__isl_take isl_pw_aff *range_pa,
__isl_take isl_pw_aff *lower)
{
isl_set *range;
range = isl_pw_aff_ge_set(isl_pw_aff_copy(range_pa), lower);
return isl_pw_aff_intersect_domain(range_pa, range);
}
/* Impose the upper bound "upper" on the variable represented by "range_pa".
*
* In particular, "range_pa" is of the form
*
* D[..., i] -> i : C
*
* with D also the domains space of "upper' and "C" some constraints.
*
* Return the expression
*
* D[..., i] -> i : C and i <= upper
*/
static __isl_give isl_pw_aff *set_upper(__isl_take isl_pw_aff *range_pa,
__isl_take isl_pw_aff *upper)
{
isl_set *range;
range = isl_pw_aff_le_set(isl_pw_aff_copy(range_pa), upper);
return isl_pw_aff_intersect_domain(range_pa, range);
}
/* Construct a piecewise affine expression corresponding
* to the last variable in "v" that is greater than or equal to "pa".
*
* In particular, if D is the domain space of "pa",
* then construct the expression
*
* D[..., i] -> i,
*
* impose lower bound "pa" and return
*
* D[..., i] -> i : i >= pa
*/
static __isl_give isl_pw_aff *construct_lower(__isl_take isl_pw_aff *pa,
struct vars *v)
{
return set_lower(init_range(pa, v), pa);
}
/* Construct a piecewise affine expression corresponding
* to the last variable in "v" that is smaller than or equal to "pa".
*
* In particular, if D is the domain space of "pa",
* then construct the expression
*
* D[..., i] -> i,
*
* impose lower bound "pa" and return
*
* D[..., i] -> i : i <= pa
*/
static __isl_give isl_pw_aff *construct_upper(__isl_take isl_pw_aff *pa,
struct vars *v)
{
return set_upper(init_range(pa, v), pa);
}
/* Construct a piecewise affine expression corresponding
* to the last variable in "v" that ranges between "pa" and "pa2".
*
* In particular, if D is the domain space of "pa" (and "pa2"),
* then construct the expression
*
* D[..., i] -> i,
*
* impose lower bound "pa" and upper bound "pa2" and return
*
* D[..., i] -> i : pa <= i <= pa2
*/
static __isl_give isl_pw_aff *construct_range(__isl_take isl_pw_aff *pa,
__isl_take isl_pw_aff *pa2, struct vars *v)
{
return set_upper(set_lower(init_range(pa, v), pa), pa2);
}
static int resolve_paren_expr(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational);
/* Given that the (piecewise) affine expression "pa"
* has just been parsed, followed by a colon,
* continue parsing as part of a piecewise affine expression.
*
* In particular, check if the colon is followed by a condition.
* If so, parse the conditions(a) on "pa" and include them in the domain.
* Otherwise, if the colon is followed by another (piecewise) affine expression
* then consider the two expressions as endpoints of a range of values and
* return a piecewise affine expression that takes values in that range.
* Note that an affine expression followed by a comparison operator
* is considered to be part of a condition.
* If the colon is not followed by anything (inside the tuple element),
* then consider "pa" as a lower bound on a range of values without upper bound
* and return a piecewise affine expression that takes values in that range.
*/
static __isl_give isl_pw_aff *update_piecewise_affine_colon(
__isl_take isl_pw_aff *pa, __isl_keep isl_stream *s,
struct vars *v, int rational)
{
isl_space *dom_space;
isl_map *map;
dom_space = isl_pw_aff_get_domain_space(pa);
map = isl_map_universe(isl_space_from_domain(dom_space));
if (isl_stream_next_token_is(s, '('))
if (resolve_paren_expr(s, v, isl_map_copy(map), rational))
goto error;
if (next_is_end_tuple_element(s)) {
isl_map_free(map);
return construct_lower(pa, v);
}
if (!next_is_condition_start(s)) {
int line = -1, col = -1;
isl_space *space;
isl_pw_aff *pa2;
set_current_line_col(s, &line, &col);
space = isl_space_wrap(isl_map_get_space(map));
pa2 = accept_affine(s, space, v);
if (rational)
pa2 = isl_pw_aff_set_rational(pa2);
if (!next_is_comparator(s)) {
isl_map_free(map);
pa2 = isl_pw_aff_domain_factor_domain(pa2);
return construct_range(pa, pa2, v);
}
if (push_aff(s, line, col, pa2) < 0)
goto error;
}
map = read_formula(s, v, map, rational);
pa = isl_pw_aff_intersect_domain(pa, isl_map_domain(map));
return pa;
error:
isl_map_free(map);
isl_pw_aff_free(pa);
return NULL;
}
/* Accept a piecewise affine expression.
*
* At the outer level, the piecewise affine expression may be of the form
*
* aff1 : condition1; aff2 : conditions2; ...
*
* or one of
*
* aff :
* aff1 : aff2
* : aff
* :
*
* or simply
*
* aff
*
* each of the affine expressions may in turn include ternary operators.
*
* If the first token is a colon, then the expression must be
* ":" or ": aff2", depending on whether anything follows the colon
* inside the tuple element.
* The first is considered to represent an arbitrary value.
* The second is considered to represent a range of values
* with the given upper bound and no lower bound.
*
* There may be parentheses around some subexpression of "aff1"
* around "aff1" itself, around "aff1 : condition1" and/or
* around the entire piecewise affine expression.
* We therefore remove the opening parenthesis (if any) from the stream
* in case the closing parenthesis follows the colon, but if the closing
* parenthesis is the first thing in the stream after the parsed affine
* expression, we push the parsed expression onto the stream and parse
* again in case the parentheses enclose some subexpression of "aff1".
*/
static __isl_give isl_pw_aff *accept_piecewise_affine(__isl_keep isl_stream *s,
__isl_take isl_space *space, struct vars *v, int rational)
{
isl_pw_aff *res;
isl_space *res_space;
if (isl_stream_eat_if_available(s, ':')) {
if (next_is_end_tuple_element(s))
return identity_tuple_el_on_space(space, v);
else
return construct_upper(accept_affine(s, space, v), v);
}
res_space = isl_space_from_domain(isl_space_copy(space));
res_space = isl_space_add_dims(res_space, isl_dim_out, 1);
res = isl_pw_aff_empty(res_space);
do {
isl_pw_aff *pa;
int seen_paren;
int line = -1, col = -1;
set_current_line_col(s, &line, &col);
seen_paren = isl_stream_eat_if_available(s, '(');
if (seen_paren)
pa = accept_piecewise_affine(s, isl_space_copy(space),
v, rational);
else
pa = accept_extended_affine(s, isl_space_copy(space),
v, rational);
if (seen_paren && isl_stream_eat_if_available(s, ')')) {
seen_paren = 0;
if (push_aff(s, line, col, pa) < 0)
goto error;
pa = accept_extended_affine(s, isl_space_copy(space),
v, rational);
}
if (pa && isl_stream_eat_if_available(s, ':'))
pa = update_piecewise_affine_colon(pa, s, v, rational);
res = isl_pw_aff_union_add(res, pa);
if (!res || (seen_paren && isl_stream_eat(s, ')')))
goto error;
} while (isl_stream_eat_if_available(s, ';'));
isl_space_free(space);
return res;
error:
isl_space_free(space);
return isl_pw_aff_free(res);
}
/* Read an affine expression from "s" for use in read_tuple.
*
* accept_extended_affine requires a wrapped space as input.
* read_tuple on the other hand expects each isl_pw_aff
* to have an anonymous space. We therefore adjust the space
* of the isl_pw_aff before returning it.
*/
static __isl_give isl_pw_aff *read_tuple_var_def(__isl_keep isl_stream *s,
struct vars *v, int rational)
{
isl_space *space;
isl_pw_aff *def;
space = isl_space_wrap(isl_space_alloc(s->ctx, 0, v->n, 0));
def = accept_piecewise_affine(s, space, v, rational);
def = isl_pw_aff_domain_factor_domain(def);
return def;
}
/* Read a list of tuple elements by calling "read_el" on each of them and
* return a space with the same number of set dimensions derived from
* the parameter space "space" and possibly updated by "read_el".
* The elements in the list are separated by either "," or "][".
* If "comma" is set then only "," is allowed.
*/
static __isl_give isl_space *read_tuple_list(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational, int comma,
__isl_give isl_space *(*read_el)(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational,
void *user),
void *user)
{
if (!space)
return NULL;
space = isl_space_set_from_params(space);
if (isl_stream_next_token_is(s, ']'))
return space;
for (;;) {
struct isl_token *tok;
space = isl_space_add_dims(space, isl_dim_set, 1);
space = read_el(s, v, space, rational, user);
if (!space)
return NULL;
tok = isl_stream_next_token(s);
if (!comma && tok && tok->type == ']' &&
isl_stream_next_token_is(s, '[')) {
isl_token_free(tok);
tok = isl_stream_next_token(s);
} else if (!tok || tok->type != ',') {
if (tok)
isl_stream_push_token(s, tok);
break;
}
isl_token_free(tok);
}
return space;
}
/* Read a tuple space from "s" derived from the parameter space "space".
* Call "read_el" on each element in the tuples.
*/
static __isl_give isl_space *read_tuple_space(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational, int comma,
__isl_give isl_space *(*read_el)(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational,
void *user),
void *user)
{
struct isl_token *tok;
char *name = NULL;
isl_space *res = NULL;
tok = isl_stream_next_token(s);
if (!tok)
goto error;
if (tok->type == ISL_TOKEN_IDENT || tok->is_keyword) {
name = strdup(tok->u.s);
isl_token_free(tok);
if (!name)
goto error;
} else
isl_stream_push_token(s, tok);
if (isl_stream_eat(s, '['))
goto error;
if (next_is_tuple(s)) {
isl_space *out;
res = read_tuple_space(s, v, isl_space_copy(space),
rational, comma, read_el, user);
if (isl_stream_eat(s, ISL_TOKEN_TO))
goto error;
out = read_tuple_space(s, v, isl_space_copy(space),
rational, comma, read_el, user);
res = isl_space_product(res, out);
} else
res = read_tuple_list(s, v, isl_space_copy(space),
rational, comma, read_el, user);
if (!res || isl_stream_eat(s, ']'))
goto error;
if (name) {
res = isl_space_set_tuple_name(res, isl_dim_set, name);
free(name);
}
isl_space_free(space);
return res;
error:
free(name);
isl_space_free(res);
isl_space_free(space);
return NULL;
}
/* Construct an isl_pw_aff defined on a space with v->n variables
* that is equal to the last of those variables.
*/
static __isl_give isl_pw_aff *identity_tuple_el(struct vars *v)
{
isl_space *space;
space = isl_space_set_alloc(v->ctx, 0, v->n);
return identity_tuple_el_on_space(space, v);
}
/* This function is called for each element in a tuple inside read_tuple.
* Add a new variable to "v" and construct a corresponding isl_pw_aff defined
* over a space containing all variables in "v" defined so far.
* The isl_pw_aff expresses the new variable in terms of earlier variables
* if a definition is provided. Otherwise, it is represented as being
* equal to itself.
* Add the isl_pw_aff to *list.
* If the new variable was named, then adjust "space" accordingly and
* return the updated space.
*/
static __isl_give isl_space *read_tuple_pw_aff_el(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational, void *user)
{
isl_pw_aff_list **list = (isl_pw_aff_list **) user;
isl_pw_aff *pa;
struct isl_token *tok;
int new_name = 0;
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
return isl_space_free(space);
}
if (tok->type == ISL_TOKEN_IDENT) {
int n = v->n;
int p = vars_pos(v, tok->u.s, -1);
if (p < 0)
goto error;
new_name = p >= n;
}
if (tok->type == '*') {
if (vars_add_anon(v) < 0)
goto error;
isl_token_free(tok);
pa = identity_tuple_el(v);
} else if (new_name) {
space = space_set_last_dim_name(space, v->v->name);
isl_token_free(tok);
if (isl_stream_eat_if_available(s, '='))
pa = read_tuple_var_def(s, v, rational);
else
pa = identity_tuple_el(v);
} else {
isl_stream_push_token(s, tok);
tok = NULL;
if (vars_add_anon(v) < 0)
goto error;
pa = read_tuple_var_def(s, v, rational);
}
*list = isl_pw_aff_list_add(*list, pa);
if (!*list)
return isl_space_free(space);
return space;
error:
isl_token_free(tok);
return isl_space_free(space);
}
/* Read a tuple and represent it as an isl_multi_pw_aff.
* The range space of the isl_multi_pw_aff is the space of the tuple.
* The domain space is an anonymous space
* with a dimension for each variable in the set of variables in "v",
* including the variables in the range.
* If a given dimension is not defined in terms of earlier dimensions in
* the input, then the corresponding isl_pw_aff is set equal to one time
* the variable corresponding to the dimension being defined.
*
* The elements in the tuple are collected in a list by read_tuple_pw_aff_el.
* Each element in this list is defined over a space representing
* the variables defined so far. We need to adjust the earlier
* elements to have as many variables in the domain as the final
* element in the list.
*/
static __isl_give isl_multi_pw_aff *read_tuple(__isl_keep isl_stream *s,
struct vars *v, int rational, int comma)
{
int i;
isl_size n;
isl_space *space;
isl_pw_aff_list *list;
space = isl_space_params_alloc(v->ctx, 0);
list = isl_pw_aff_list_alloc(s->ctx, 0);
space = read_tuple_space(s, v, space, rational, comma,
&read_tuple_pw_aff_el, &list);
n = isl_space_dim(space, isl_dim_set);
if (n < 0)
space = isl_space_free(space);
for (i = 0; i + 1 < n; ++i) {
isl_pw_aff *pa;
pa = isl_pw_aff_list_get_pw_aff(list, i);
pa = isl_pw_aff_add_dims(pa, isl_dim_in, n - (i + 1));
list = isl_pw_aff_list_set_pw_aff(list, i, pa);
}
space = isl_space_from_range(space);
space = isl_space_add_dims(space, isl_dim_in, v->n);
return isl_multi_pw_aff_from_pw_aff_list(space, list);
}
/* Add the tuple represented by the isl_multi_pw_aff "tuple" to "map".
* We first create the appropriate space in "map" based on the range
* space of this isl_multi_pw_aff. Then, we add equalities based
* on the affine expressions. These live in an anonymous space,
* however, so we first need to reset the space to that of "map".
*/
static __isl_give isl_map *map_from_tuple(__isl_take isl_multi_pw_aff *tuple,
__isl_take isl_map *map, enum isl_dim_type type, struct vars *v,
int rational)
{
int i;
isl_size n;
isl_ctx *ctx;
isl_space *space = NULL;
n = isl_multi_pw_aff_dim(tuple, isl_dim_out);
if (!map || n < 0)
goto error;
ctx = isl_multi_pw_aff_get_ctx(tuple);
space = isl_space_range(isl_multi_pw_aff_get_space(tuple));
if (!space)
goto error;
if (type == isl_dim_param) {
if (isl_space_has_tuple_name(space, isl_dim_set) ||
isl_space_is_wrapping(space)) {
isl_die(ctx, isl_error_invalid,
"parameter tuples cannot be named or nested",
goto error);
}
map = isl_map_add_dims(map, type, n);
for (i = 0; i < n; ++i) {
isl_id *id;
if (!isl_space_has_dim_name(space, isl_dim_set, i))
isl_die(ctx, isl_error_invalid,
"parameters must be named",
goto error);
id = isl_space_get_dim_id(space, isl_dim_set, i);
map = isl_map_set_dim_id(map, isl_dim_param, i, id);
}
} else if (type == isl_dim_in) {
isl_set *set;
set = isl_set_universe(isl_space_copy(space));
if (rational)
set = isl_set_set_rational(set);
set = isl_set_intersect_params(set, isl_map_params(map));
map = isl_map_from_domain(set);
} else {
isl_set *set;
set = isl_set_universe(isl_space_copy(space));
if (rational)
set = isl_set_set_rational(set);
map = isl_map_from_domain_and_range(isl_map_domain(map), set);
}
for (i = 0; i < n; ++i) {
isl_pw_aff *pa;
isl_space *space;
isl_aff *aff;
isl_set *set;
isl_map *map_i;
pa = isl_multi_pw_aff_get_pw_aff(tuple, i);
space = isl_pw_aff_get_domain_space(pa);
aff = isl_aff_zero_on_domain(isl_local_space_from_space(space));
aff = isl_aff_add_coefficient_si(aff,
isl_dim_in, v->n - n + i, -1);
pa = isl_pw_aff_add(pa, isl_pw_aff_from_aff(aff));
if (rational)
pa = isl_pw_aff_set_rational(pa);
set = isl_pw_aff_zero_set(pa);
map_i = isl_map_from_range(set);
map_i = isl_map_reset_space(map_i, isl_map_get_space(map));
map = isl_map_intersect(map, map_i);
}
isl_space_free(space);
isl_multi_pw_aff_free(tuple);
return map;
error:
isl_space_free(space);
isl_multi_pw_aff_free(tuple);
isl_map_free(map);
return NULL;
}
/* Read a tuple from "s" and add it to "map".
* The tuple is initially represented as an isl_multi_pw_aff and
* then added to "map".
*/
static __isl_give isl_map *read_map_tuple(__isl_keep isl_stream *s,
__isl_take isl_map *map, enum isl_dim_type type, struct vars *v,
int comma)
{
isl_bool rational;
isl_multi_pw_aff *tuple;
rational = isl_map_is_rational(map);
if (rational < 0)
return isl_map_free(map);
tuple = read_tuple(s, v, rational, comma);
if (!tuple)
return isl_map_free(map);
return map_from_tuple(tuple, map, type, v, rational);
}
/* Read the parameter domain of an expression from "s" (if any) and
* check that it does not involve any constraints.
* "v" contains a description of the identifiers parsed so far
* (of which there should not be any at this point) and is extended
* by this function.
*/
static __isl_give isl_set *read_universe_params(__isl_keep isl_stream *s,
struct vars *v)
{
isl_set *dom;
dom = isl_set_universe(isl_space_params_alloc(s->ctx, 0));
if (next_is_tuple(s)) {
dom = read_map_tuple(s, dom, isl_dim_param, v, 0);
if (isl_stream_eat(s, ISL_TOKEN_TO))
return isl_set_free(dom);
}
if (!isl_set_plain_is_universe(dom))
isl_die(s->ctx, isl_error_invalid,
"expecting universe parameter domain",
return isl_set_free(dom));
return dom;
}
/* Read the parameter domain of an expression from "s" (if any),
* check that it does not involve any constraints and return its space.
* "v" contains a description of the identifiers parsed so far
* (of which there should not be any at this point) and is extended
* by this function.
*/
static __isl_give isl_space *read_params(__isl_keep isl_stream *s,
struct vars *v)
{
isl_space *space;
isl_set *set;
set = read_universe_params(s, v);
space = isl_set_get_space(set);
isl_set_free(set);
return space;
}
/* This function is called for each element in a tuple inside read_space_tuples.
* Add a new variable to "v" and adjust "space" accordingly
* if the variable has a name.
*/
static __isl_give isl_space *read_tuple_id(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational, void *user)
{
struct isl_token *tok;
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
return isl_space_free(space);
}
if (tok->type == ISL_TOKEN_IDENT) {
int n = v->n;
int p = vars_pos(v, tok->u.s, -1);
if (p < 0)
goto error;
if (p < n) {
isl_stream_error(s, tok, "expecting fresh identifier");
goto error;
}
space = space_set_last_dim_name(space, v->v->name);
} else if (tok->type == '*') {
if (vars_add_anon(v) < 0)
goto error;
} else {
isl_stream_error(s, tok, "expecting identifier or '*'");
goto error;
}
isl_token_free(tok);
return space;
error:
isl_token_free(tok);
return isl_space_free(space);
}
/* Given a parameter space "params", extend it with one or two tuples
* read from "s".
* "v" contains a description of the identifiers parsed so far and is extended
* by this function.
*/
static __isl_give isl_space *read_space_tuples(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *params)
{
isl_space *space, *ran;
space = read_tuple_space(s, v, isl_space_copy(params), 1, 1,
&read_tuple_id, NULL);
if (isl_stream_eat_if_available(s, ISL_TOKEN_TO)) {
ran = read_tuple_space(s, v, isl_space_copy(params), 1, 1,
&read_tuple_id, NULL);
space = isl_space_unwrap(isl_space_product(space, ran));
}
isl_space_free(params);
return space;
}
/* Read an isl_space object from "s".
*
* First read the parameters (if any).
*
* Then check if the description is of the special form "{ : }",
* in which case it represents a parameter space.
* Otherwise, it has one or two tuples.
*/
__isl_give isl_space *isl_stream_read_space(__isl_keep isl_stream *s)
{
struct vars *v;
isl_space *space;
v = vars_new(s->ctx);
if (!v)
return NULL;
space = read_params(s, v);
if (isl_stream_eat(s, '{'))
goto error;
if (!isl_stream_eat_if_available(s, ':'))
space = read_space_tuples(s, v, space);
if (isl_stream_eat(s, '}'))
goto error;
vars_free(v);
return space;
error:
vars_free(v);
isl_space_free(space);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE space
#include "isl_read_from_str_templ.c"
/* Given two equal-length lists of piecewise affine expression with the space
* of "set" as domain, construct a set in the same space that expresses
* that "left" and "right" satisfy the comparison "type".
*
* A space is constructed of the same dimension as the number of elements
* in the two lists. The comparison is then expressed in a map from
* this space to itself and wrapped into a set. Finally the two lists
* of piecewise affine expressions are plugged into this set.
*
* Let S be the space of "set" and T the constructed space.
* The lists are first changed into two isl_multi_pw_affs in S -> T and
* then combined into an isl_multi_pw_aff in S -> [T -> T],
* while the comparison is first expressed in T -> T, then [T -> T]
* and finally in S.
*/
static __isl_give isl_set *list_cmp(__isl_keep isl_set *set, int type,
__isl_take isl_pw_aff_list *left, __isl_take isl_pw_aff_list *right)
{
isl_space *space;
isl_size n;
isl_multi_pw_aff *mpa1, *mpa2;
n = isl_pw_aff_list_n_pw_aff(left);
if (!set || n < 0 || !right)
goto error;
space = isl_set_get_space(set);
space = isl_space_from_domain(space);
space = isl_space_add_dims(space, isl_dim_out, n);
mpa1 = isl_multi_pw_aff_from_pw_aff_list(isl_space_copy(space), left);
mpa2 = isl_multi_pw_aff_from_pw_aff_list(isl_space_copy(space), right);
mpa1 = isl_multi_pw_aff_range_product(mpa1, mpa2);
space = isl_space_range(space);
switch (type) {
case ISL_TOKEN_LEX_LT:
set = isl_map_wrap(isl_map_lex_lt(space));
break;
case ISL_TOKEN_LEX_GT:
set = isl_map_wrap(isl_map_lex_gt(space));
break;
case ISL_TOKEN_LEX_LE:
set = isl_map_wrap(isl_map_lex_le(space));
break;
case ISL_TOKEN_LEX_GE:
set = isl_map_wrap(isl_map_lex_ge(space));
break;
default:
isl_multi_pw_aff_free(mpa1);
isl_space_free(space);
isl_die(isl_set_get_ctx(set), isl_error_internal,
"unhandled list comparison type", return NULL);
}
set = isl_set_preimage_multi_pw_aff(set, mpa1);
return set;
error:
isl_pw_aff_list_free(left);
isl_pw_aff_list_free(right);
return NULL;
}
/* Construct constraints of the form
*
* a op b
*
* where a is an element in "left", op is an operator of type "type" and
* b is an element in "right", add the constraints to "set" and return
* the result.
* "rational" is set if the constraints should be treated as
* a rational constraints.
*
* If "type" is the type of a comparison operator between lists
* of affine expressions, then a single (compound) constraint
* is constructed by list_cmp instead.
*/
static __isl_give isl_set *construct_constraints(
__isl_take isl_set *set, int type,
__isl_keep isl_pw_aff_list *left, __isl_keep isl_pw_aff_list *right,
int rational)
{
isl_set *cond;
left = isl_pw_aff_list_copy(left);
right = isl_pw_aff_list_copy(right);
if (rational) {
left = isl_pw_aff_list_set_rational(left);
right = isl_pw_aff_list_set_rational(right);
}
if (is_list_comparator_type(type))
cond = list_cmp(set, type, left, right);
else if (type == ISL_TOKEN_LE)
cond = isl_pw_aff_list_le_set(left, right);
else if (type == ISL_TOKEN_GE)
cond = isl_pw_aff_list_ge_set(left, right);
else if (type == ISL_TOKEN_LT)
cond = isl_pw_aff_list_lt_set(left, right);
else if (type == ISL_TOKEN_GT)
cond = isl_pw_aff_list_gt_set(left, right);
else if (type == ISL_TOKEN_NE)
cond = isl_pw_aff_list_ne_set(left, right);
else
cond = isl_pw_aff_list_eq_set(left, right);
return isl_set_intersect(set, cond);
}
/* Read a constraint from "s", add it to "map" and return the result.
* "v" contains a description of the identifiers parsed so far.
* "rational" is set if the constraint should be treated as
* a rational constraint.
* The constraint read from "s" may be applied to multiple pairs
* of affine expressions and may be chained.
* In particular, a list of affine expressions is read, followed
* by a comparison operator and another list of affine expressions.
* The comparison operator is then applied to each pair of elements
* in the two lists and the results are added to "map".
* However, if the operator expects two lists of affine expressions,
* then it is applied directly to those lists and the two lists
* are required to have the same length.
* If the next token is another comparison operator, then another
* list of affine expressions is read and the process repeats.
*
* The processing is performed on a wrapped copy of "map" because
* an affine expression cannot have a binary relation as domain.
*/
static __isl_give isl_map *add_constraint(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
struct isl_token *tok;
int type;
isl_pw_aff_list *list1 = NULL, *list2 = NULL;
isl_size n1, n2;
isl_set *set;
set = isl_map_wrap(map);
list1 = accept_affine_list(s, isl_set_get_space(set), v);
if (!list1)
goto error;
tok = isl_stream_next_token(s);
if (!is_comparator(tok)) {
isl_stream_error(s, tok, "missing operator");
if (tok)
isl_stream_push_token(s, tok);
goto error;
}
type = tok->type;
isl_token_free(tok);
for (;;) {
list2 = accept_affine_list(s, isl_set_get_space(set), v);
n1 = isl_pw_aff_list_n_pw_aff(list1);
n2 = isl_pw_aff_list_n_pw_aff(list2);
if (n1 < 0 || n2 < 0)
goto error;
if (is_list_comparator_type(type) && n1 != n2) {
isl_stream_error(s, NULL,
"list arguments not of same size");
goto error;
}
set = construct_constraints(set, type, list1, list2, rational);
isl_pw_aff_list_free(list1);
list1 = list2;
if (!next_is_comparator(s))
break;
tok = isl_stream_next_token(s);
type = tok->type;
isl_token_free(tok);
}
isl_pw_aff_list_free(list1);
return isl_set_unwrap(set);
error:
isl_pw_aff_list_free(list1);
isl_pw_aff_list_free(list2);
isl_set_free(set);
return NULL;
}
static __isl_give isl_map *read_exists(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
int n = v->n;
int seen_paren = isl_stream_eat_if_available(s, '(');
map = isl_map_from_domain(isl_map_wrap(map));
map = read_defined_var_list(s, v, map, rational);
if (isl_stream_eat(s, ':'))
goto error;
map = read_formula(s, v, map, rational);
map = isl_set_unwrap(isl_map_domain(map));
vars_drop(v, v->n - n);
if (seen_paren && isl_stream_eat(s, ')'))
goto error;
return map;
error:
isl_map_free(map);
return NULL;
}
/* Parse an expression between parentheses and push the result
* back on the stream.
*
* The parsed expression may be either an affine expression
* or a condition. The first type is pushed onto the stream
* as an isl_pw_aff, while the second is pushed as an isl_map.
*
* If the initial token indicates the start of a condition,
* we parse it as such.
* Otherwise, we first parse an affine expression and push
* that onto the stream. If the affine expression covers the
* entire expression between parentheses, we return.
* Otherwise, we assume that the affine expression is the
* start of a condition and continue parsing.
*/
static int resolve_paren_expr(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
struct isl_token *tok, *tok2;
int has_paren;
int line, col;
isl_pw_aff *pwaff;
tok = isl_stream_next_token(s);
if (!tok || tok->type != '(')
goto error;
if (isl_stream_next_token_is(s, '('))
if (resolve_paren_expr(s, v, isl_map_copy(map), rational))
goto error;
if (next_is_condition_start(s)) {
map = read_formula(s, v, map, rational);
if (isl_stream_eat(s, ')'))
goto error;
tok->type = ISL_TOKEN_MAP;
tok->u.map = map;
isl_stream_push_token(s, tok);
return 0;
}
tok2 = isl_stream_next_token(s);
if (!tok2)
goto error;
line = tok2->line;
col = tok2->col;
isl_stream_push_token(s, tok2);
pwaff = accept_affine(s, isl_space_wrap(isl_map_get_space(map)), v);
if (!pwaff)
goto error;
has_paren = isl_stream_eat_if_available(s, ')');
if (push_aff(s, line, col, pwaff) < 0)
goto error;
if (has_paren) {
isl_token_free(tok);
isl_map_free(map);
return 0;
}
map = read_formula(s, v, map, rational);
if (isl_stream_eat(s, ')'))
goto error;
tok->type = ISL_TOKEN_MAP;
tok->u.map = map;
isl_stream_push_token(s, tok);
return 0;
error:
isl_token_free(tok);
isl_map_free(map);
return -1;
}
static __isl_give isl_map *read_conjunct(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
if (isl_stream_next_token_is(s, '('))
if (resolve_paren_expr(s, v, isl_map_copy(map), rational))
goto error;
if (isl_stream_next_token_is(s, ISL_TOKEN_MAP)) {
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
goto error;
isl_map_free(map);
map = isl_map_copy(tok->u.map);
isl_token_free(tok);
return map;
}
if (isl_stream_eat_if_available(s, ISL_TOKEN_EXISTS))
return read_exists(s, v, map, rational);
if (isl_stream_eat_if_available(s, ISL_TOKEN_TRUE))
return map;
if (isl_stream_eat_if_available(s, ISL_TOKEN_FALSE)) {
isl_space *space = isl_map_get_space(map);
isl_map_free(map);
return isl_map_empty(space);
}
return add_constraint(s, v, map, rational);
error:
isl_map_free(map);
return NULL;
}
static __isl_give isl_map *read_conjuncts(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
isl_map *res;
int negate;
negate = isl_stream_eat_if_available(s, ISL_TOKEN_NOT);
res = read_conjunct(s, v, isl_map_copy(map), rational);
if (negate)
res = isl_map_subtract(isl_map_copy(map), res);
while (res && isl_stream_eat_if_available(s, ISL_TOKEN_AND)) {
isl_map *res_i;
negate = isl_stream_eat_if_available(s, ISL_TOKEN_NOT);
res_i = read_conjunct(s, v, isl_map_copy(map), rational);
if (negate)
res = isl_map_subtract(res, res_i);
else
res = isl_map_intersect(res, res_i);
}
isl_map_free(map);
return res;
}
static __isl_give isl_map *read_disjuncts(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
isl_map *res;
if (isl_stream_next_token_is(s, '}'))
return map;
res = read_conjuncts(s, v, isl_map_copy(map), rational);
while (isl_stream_eat_if_available(s, ISL_TOKEN_OR)) {
isl_map *res_i;
res_i = read_conjuncts(s, v, isl_map_copy(map), rational);
res = isl_map_union(res, res_i);
}
isl_map_free(map);
return res;
}
/* Read a first order formula from "s", add the corresponding
* constraints to "map" and return the result.
*
* In particular, read a formula of the form
*
* a
*
* or
*
* a implies b
*
* where a and b are disjunctions.
*
* In the first case, map is replaced by
*
* map \cap { [..] : a }
*
* In the second case, it is replaced by
*
* (map \setminus { [..] : a}) \cup (map \cap { [..] : b })
*/
static __isl_give isl_map *read_formula(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_map *map, int rational)
{
isl_map *res;
res = read_disjuncts(s, v, isl_map_copy(map), rational);
if (isl_stream_eat_if_available(s, ISL_TOKEN_IMPLIES)) {
isl_map *res2;
res = isl_map_subtract(isl_map_copy(map), res);
res2 = read_disjuncts(s, v, map, rational);
res = isl_map_union(res, res2);
} else
isl_map_free(map);
return res;
}
static isl_size polylib_pos_to_isl_pos(__isl_keep isl_basic_map *bmap, int pos)
{
isl_size n_out, n_in, n_param, n_div;
n_param = isl_basic_map_dim(bmap, isl_dim_param);
n_in = isl_basic_map_dim(bmap, isl_dim_in);
n_out = isl_basic_map_dim(bmap, isl_dim_out);
n_div = isl_basic_map_dim(bmap, isl_dim_div);
if (n_param < 0 || n_in < 0 || n_out < 0 || n_div < 0)
return isl_size_error;
if (pos < n_out)
return 1 + n_param + n_in + pos;
pos -= n_out;
if (pos < n_in)
return 1 + n_param + pos;
pos -= n_in;
if (pos < n_div)
return 1 + n_param + n_in + n_out + pos;
pos -= n_div;
if (pos < n_param)
return 1 + pos;
return 0;
}
static __isl_give isl_basic_map *basic_map_read_polylib_constraint(
__isl_keep isl_stream *s, __isl_take isl_basic_map *bmap)
{
int j;
struct isl_token *tok;
int type;
int k;
isl_int *c;
isl_size total;
if (!bmap)
return NULL;
tok = isl_stream_next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting coefficient");
isl_token_free(tok);
goto error;
}
if (!tok->on_new_line) {
isl_stream_error(s, tok, "coefficient should appear on new line");
isl_token_free(tok);
goto error;
}
type = isl_int_get_si(tok->u.v);
isl_token_free(tok);
isl_assert(s->ctx, type == 0 || type == 1, goto error);
if (type == 0) {
k = isl_basic_map_alloc_equality(bmap);
c = bmap->eq[k];
} else {
k = isl_basic_map_alloc_inequality(bmap);
c = bmap->ineq[k];
}
if (k < 0)
goto error;
total = isl_basic_map_dim(bmap, isl_dim_all);
if (total < 0)
return isl_basic_map_free(bmap);
for (j = 0; j < 1 + total; ++j) {
isl_size pos;
tok = next_signed_value_on_same_line(s,
"expecting coefficient on same line");
if (!tok)
goto error;
pos = polylib_pos_to_isl_pos(bmap, j);
if (pos >= 0)
isl_int_set(c[pos], tok->u.v);
isl_token_free(tok);
if (pos < 0)
return isl_basic_map_free(bmap);
}
return bmap;
error:
isl_basic_map_free(bmap);
return NULL;
}
static __isl_give isl_basic_map *basic_map_read_polylib(
__isl_keep isl_stream *s)
{
int i;
struct isl_token *tok;
struct isl_token *tok2;
int n_row, n_col;
int on_new_line;
unsigned in = 0, out, local = 0;
struct isl_basic_map *bmap = NULL;
int nparam = 0;
tok = isl_stream_next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
return NULL;
}
tok2 = isl_stream_next_token(s);
if (!tok2) {
isl_token_free(tok);
isl_stream_error(s, NULL, "unexpected EOF");
return NULL;
}
if (tok->type != ISL_TOKEN_VALUE || tok2->type != ISL_TOKEN_VALUE) {
isl_token_free(tok2);
isl_token_free(tok);
isl_stream_error(s, NULL,
"expecting constraint matrix dimensions");
return NULL;
}
n_row = isl_int_get_si(tok->u.v);
n_col = isl_int_get_si(tok2->u.v);
on_new_line = tok2->on_new_line;
isl_token_free(tok2);
isl_token_free(tok);
isl_assert(s->ctx, !on_new_line, return NULL);
isl_assert(s->ctx, n_row >= 0, return NULL);
isl_assert(s->ctx, n_col >= 2 + nparam, return NULL);
tok = isl_stream_next_token_on_same_line(s);
if (tok) {
if (tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok,
"expecting number of output dimensions");
isl_token_free(tok);
goto error;
}
out = isl_int_get_si(tok->u.v);
isl_token_free(tok);
tok = isl_stream_next_token_on_same_line(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok,
"expecting number of input dimensions");
isl_token_free(tok);
goto error;
}
in = isl_int_get_si(tok->u.v);
isl_token_free(tok);
tok = isl_stream_next_token_on_same_line(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok,
"expecting number of existentials");
isl_token_free(tok);
goto error;
}
local = isl_int_get_si(tok->u.v);
isl_token_free(tok);
tok = isl_stream_next_token_on_same_line(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok,
"expecting number of parameters");
isl_token_free(tok);
goto error;
}
nparam = isl_int_get_si(tok->u.v);
isl_token_free(tok);
if (n_col != 1 + out + in + local + nparam + 1) {
isl_stream_error(s, NULL,
"dimensions don't match");
goto error;
}
} else
out = n_col - 2 - nparam;
bmap = isl_basic_map_alloc(s->ctx, nparam, in, out, local, n_row, n_row);
if (!bmap)
return NULL;
for (i = 0; i < local; ++i) {
int k = isl_basic_map_alloc_div(bmap);
if (k < 0)
goto error;
isl_seq_clr(bmap->div[k], 1 + 1 + nparam + in + out + local);
}
for (i = 0; i < n_row; ++i)
bmap = basic_map_read_polylib_constraint(s, bmap);
if (!bmap)
return NULL;
tok = isl_stream_next_token_on_same_line(s);
if (tok) {
isl_stream_error(s, tok, "unexpected extra token on line");
isl_token_free(tok);
goto error;
}
bmap = isl_basic_map_simplify(bmap);
bmap = isl_basic_map_finalize(bmap);
return bmap;
error:
isl_basic_map_free(bmap);
return NULL;
}
static __isl_give isl_map *map_read_polylib(__isl_keep isl_stream *s)
{
struct isl_token *tok;
struct isl_token *tok2;
int i, n;
struct isl_map *map;
tok = isl_stream_next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
return NULL;
}
tok2 = isl_stream_next_token_on_same_line(s);
if (tok2 && tok2->type == ISL_TOKEN_VALUE) {
isl_stream_push_token(s, tok2);
isl_stream_push_token(s, tok);
return isl_map_from_basic_map(basic_map_read_polylib(s));
}
if (tok2) {
isl_stream_error(s, tok2, "unexpected token");
isl_stream_push_token(s, tok2);
isl_stream_push_token(s, tok);
return NULL;
}
n = isl_int_get_si(tok->u.v);
isl_token_free(tok);
isl_assert(s->ctx, n >= 1, return NULL);
map = isl_map_from_basic_map(basic_map_read_polylib(s));
for (i = 1; map && i < n; ++i)
map = isl_map_union(map,
isl_map_from_basic_map(basic_map_read_polylib(s)));
return map;
}
static int optional_power(__isl_keep isl_stream *s)
{
int pow;
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
return 1;
if (tok->type != '^') {
isl_stream_push_token(s, tok);
return 1;
}
isl_token_free(tok);
tok = isl_stream_next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting exponent");
if (tok)
isl_stream_push_token(s, tok);
return 1;
}
pow = isl_int_get_si(tok->u.v);
isl_token_free(tok);
return pow;
}
static __isl_give isl_pw_qpolynomial *read_term(__isl_keep isl_stream *s,
__isl_keep isl_map *map, struct vars *v);
static __isl_give isl_pw_qpolynomial *read_factor(__isl_keep isl_stream *s,
__isl_keep isl_map *map, struct vars *v)
{
isl_pw_qpolynomial *pwqp;
struct isl_token *tok;
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
return NULL;
}
if (tok->type == '(') {
int pow;
isl_token_free(tok);
pwqp = read_term(s, map, v);
if (!pwqp)
return NULL;
if (isl_stream_eat(s, ')'))
goto error;
pow = optional_power(s);
pwqp = isl_pw_qpolynomial_pow(pwqp, pow);
} else if (tok->type == ISL_TOKEN_VALUE) {
struct isl_token *tok2;
isl_qpolynomial *qp;
tok2 = isl_stream_next_token(s);
if (tok2 && tok2->type == '/') {
isl_token_free(tok2);
tok2 = next_token(s);
if (!tok2 || tok2->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok2, "expected denominator");
isl_token_free(tok);
isl_token_free(tok2);
return NULL;
}
qp = isl_qpolynomial_rat_cst_on_domain(isl_map_get_space(map),
tok->u.v, tok2->u.v);
isl_token_free(tok2);
} else {
isl_stream_push_token(s, tok2);
qp = isl_qpolynomial_cst_on_domain(isl_map_get_space(map),
tok->u.v);
}
isl_token_free(tok);
pwqp = isl_pw_qpolynomial_from_qpolynomial(qp);
} else if (tok->type == ISL_TOKEN_INFTY) {
isl_qpolynomial *qp;
isl_token_free(tok);
qp = isl_qpolynomial_infty_on_domain(isl_map_get_space(map));
pwqp = isl_pw_qpolynomial_from_qpolynomial(qp);
} else if (tok->type == ISL_TOKEN_NAN) {
isl_qpolynomial *qp;
isl_token_free(tok);
qp = isl_qpolynomial_nan_on_domain(isl_map_get_space(map));
pwqp = isl_pw_qpolynomial_from_qpolynomial(qp);
} else if (tok->type == ISL_TOKEN_IDENT) {
int n = v->n;
int pos = vars_pos(v, tok->u.s, -1);
int pow;
isl_qpolynomial *qp;
if (pos < 0) {
isl_token_free(tok);
return NULL;
}
if (pos >= n) {
vars_drop(v, v->n - n);
isl_stream_error(s, tok, "unknown identifier");
isl_token_free(tok);
return NULL;
}
isl_token_free(tok);
pow = optional_power(s);
qp = isl_qpolynomial_var_pow_on_domain(isl_map_get_space(map), pos, pow);
pwqp = isl_pw_qpolynomial_from_qpolynomial(qp);
} else if (is_start_of_div(tok)) {
isl_pw_aff *pwaff;
int pow;
isl_stream_push_token(s, tok);
pwaff = accept_div(s, isl_map_get_space(map), v);
pow = optional_power(s);
pwqp = isl_pw_qpolynomial_from_pw_aff(pwaff);
pwqp = isl_pw_qpolynomial_pow(pwqp, pow);
} else if (tok->type == '-') {
isl_token_free(tok);
pwqp = read_factor(s, map, v);
pwqp = isl_pw_qpolynomial_neg(pwqp);
} else {
isl_stream_error(s, tok, "unexpected isl_token");
isl_stream_push_token(s, tok);
return NULL;
}
if (isl_stream_eat_if_available(s, '*') ||
isl_stream_next_token_is(s, ISL_TOKEN_IDENT)) {
isl_pw_qpolynomial *pwqp2;
pwqp2 = read_factor(s, map, v);
pwqp = isl_pw_qpolynomial_mul(pwqp, pwqp2);
}
return pwqp;
error:
isl_pw_qpolynomial_free(pwqp);
return NULL;
}
static __isl_give isl_pw_qpolynomial *read_term(__isl_keep isl_stream *s,
__isl_keep isl_map *map, struct vars *v)
{
struct isl_token *tok;
isl_pw_qpolynomial *pwqp;
pwqp = read_factor(s, map, v);
for (;;) {
tok = next_token(s);
if (!tok)
return pwqp;
if (tok->type == '+') {
isl_pw_qpolynomial *pwqp2;
isl_token_free(tok);
pwqp2 = read_factor(s, map, v);
pwqp = isl_pw_qpolynomial_add(pwqp, pwqp2);
} else if (tok->type == '-') {
isl_pw_qpolynomial *pwqp2;
isl_token_free(tok);
pwqp2 = read_factor(s, map, v);
pwqp = isl_pw_qpolynomial_sub(pwqp, pwqp2);
} else {
isl_stream_push_token(s, tok);
break;
}
}
return pwqp;
}
static __isl_give isl_map *read_optional_formula(__isl_keep isl_stream *s,
__isl_take isl_map *map, struct vars *v, int rational)
{
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type == ':' ||
(tok->type == ISL_TOKEN_OR && !strcmp(tok->u.s, "|"))) {
isl_token_free(tok);
map = read_formula(s, v, map, rational);
} else
isl_stream_push_token(s, tok);
return map;
error:
isl_map_free(map);
return NULL;
}
static struct isl_obj obj_read_poly(__isl_keep isl_stream *s,
__isl_take isl_map *map, struct vars *v, int n)
{
struct isl_obj obj = { isl_obj_pw_qpolynomial, NULL };
isl_pw_qpolynomial *pwqp;
struct isl_set *set;
pwqp = read_term(s, map, v);
map = read_optional_formula(s, map, v, 0);
set = isl_map_range(map);
pwqp = isl_pw_qpolynomial_intersect_domain(pwqp, set);
vars_drop(v, v->n - n);
obj.v = pwqp;
return obj;
}
static struct isl_obj obj_read_poly_or_fold(__isl_keep isl_stream *s,
__isl_take isl_set *set, struct vars *v, int n)
{
int min, max;
struct isl_obj obj = { isl_obj_pw_qpolynomial_fold, NULL };
isl_pw_qpolynomial *pwqp;
isl_pw_qpolynomial_fold *pwf = NULL;
enum isl_fold fold;
max = isl_stream_eat_if_available(s, ISL_TOKEN_MAX);
min = !max && isl_stream_eat_if_available(s, ISL_TOKEN_MIN);
if (!min && !max)
return obj_read_poly(s, set, v, n);
fold = max ? isl_fold_max : isl_fold_min;
if (isl_stream_eat(s, '('))
goto error;
pwqp = read_term(s, set, v);
pwf = isl_pw_qpolynomial_fold_from_pw_qpolynomial(fold, pwqp);
while (isl_stream_eat_if_available(s, ',')) {
isl_pw_qpolynomial_fold *pwf_i;
pwqp = read_term(s, set, v);
pwf_i = isl_pw_qpolynomial_fold_from_pw_qpolynomial(fold, pwqp);
pwf = isl_pw_qpolynomial_fold_fold(pwf, pwf_i);
}
if (isl_stream_eat(s, ')'))
goto error;
set = read_optional_formula(s, set, v, 0);
pwf = isl_pw_qpolynomial_fold_intersect_domain(pwf, set);
vars_drop(v, v->n - n);
obj.v = pwf;
return obj;
error:
isl_set_free(set);
isl_pw_qpolynomial_fold_free(pwf);
obj.type = isl_obj_none;
return obj;
}
static int is_rational(__isl_keep isl_stream *s)
{
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type == ISL_TOKEN_RAT && isl_stream_next_token_is(s, ':')) {
isl_token_free(tok);
isl_stream_eat(s, ':');
return 1;
}
isl_stream_push_token(s, tok);
return 0;
}
static struct isl_obj obj_read_body(__isl_keep isl_stream *s,
__isl_take isl_map *map, struct vars *v)
{
struct isl_token *tok;
struct isl_obj obj = { isl_obj_set, NULL };
int n = v->n;
int rational;
rational = is_rational(s);
if (rational)
map = isl_map_set_rational(map);
if (isl_stream_next_token_is(s, ':')) {
obj.type = isl_obj_set;
obj.v = read_optional_formula(s, map, v, rational);
return obj;
}
if (!next_is_tuple(s))
return obj_read_poly_or_fold(s, map, v, n);
map = read_map_tuple(s, map, isl_dim_in, v, 0);
if (!map)
goto error;
tok = isl_stream_next_token(s);
if (!tok)
goto error;
if (tok->type == ISL_TOKEN_TO) {
obj.type = isl_obj_map;
isl_token_free(tok);
if (!next_is_tuple(s)) {
isl_set *set = isl_map_domain(map);
return obj_read_poly_or_fold(s, set, v, n);
}
map = read_map_tuple(s, map, isl_dim_out, v, 0);
if (!map)
goto error;
} else {
map = isl_map_domain(map);
isl_stream_push_token(s, tok);
}
map = read_optional_formula(s, map, v, rational);
vars_drop(v, v->n - n);
obj.v = map;
return obj;
error:
isl_map_free(map);
obj.type = isl_obj_none;
return obj;
}
static struct isl_obj to_union(isl_ctx *ctx, struct isl_obj obj)
{
if (obj.type == isl_obj_map) {
obj.v = isl_union_map_from_map(obj.v);
obj.type = isl_obj_union_map;
} else if (obj.type == isl_obj_set) {
obj.v = isl_union_set_from_set(obj.v);
obj.type = isl_obj_union_set;
} else if (obj.type == isl_obj_pw_qpolynomial) {
obj.v = isl_union_pw_qpolynomial_from_pw_qpolynomial(obj.v);
obj.type = isl_obj_union_pw_qpolynomial;
} else if (obj.type == isl_obj_pw_qpolynomial_fold) {
obj.v = isl_union_pw_qpolynomial_fold_from_pw_qpolynomial_fold(obj.v);
obj.type = isl_obj_union_pw_qpolynomial_fold;
} else
isl_assert(ctx, 0, goto error);
return obj;
error:
obj.type->free(obj.v);
obj.type = isl_obj_none;
return obj;
}
static struct isl_obj obj_add(__isl_keep isl_stream *s,
struct isl_obj obj1, struct isl_obj obj2)
{
if (obj2.type == isl_obj_none || !obj2.v)
goto error;
if (obj1.type == isl_obj_set && obj2.type == isl_obj_union_set)
obj1 = to_union(s->ctx, obj1);
if (obj1.type == isl_obj_union_set && obj2.type == isl_obj_set)
obj2 = to_union(s->ctx, obj2);
if (obj1.type == isl_obj_map && obj2.type == isl_obj_union_map)
obj1 = to_union(s->ctx, obj1);
if (obj1.type == isl_obj_union_map && obj2.type == isl_obj_map)
obj2 = to_union(s->ctx, obj2);
if (obj1.type == isl_obj_pw_qpolynomial &&
obj2.type == isl_obj_union_pw_qpolynomial)
obj1 = to_union(s->ctx, obj1);
if (obj1.type == isl_obj_union_pw_qpolynomial &&
obj2.type == isl_obj_pw_qpolynomial)
obj2 = to_union(s->ctx, obj2);
if (obj1.type == isl_obj_pw_qpolynomial_fold &&
obj2.type == isl_obj_union_pw_qpolynomial_fold)
obj1 = to_union(s->ctx, obj1);
if (obj1.type == isl_obj_union_pw_qpolynomial_fold &&
obj2.type == isl_obj_pw_qpolynomial_fold)
obj2 = to_union(s->ctx, obj2);
if (obj1.type != obj2.type) {
isl_stream_error(s, NULL,
"attempt to combine incompatible objects");
goto error;
}
if (!obj1.type->add)
isl_die(s->ctx, isl_error_internal,
"combination not supported on object type", goto error);
if (obj1.type == isl_obj_map && !isl_map_has_equal_space(obj1.v, obj2.v)) {
obj1 = to_union(s->ctx, obj1);
obj2 = to_union(s->ctx, obj2);
}
if (obj1.type == isl_obj_set && !isl_set_has_equal_space(obj1.v, obj2.v)) {
obj1 = to_union(s->ctx, obj1);
obj2 = to_union(s->ctx, obj2);
}
if (obj1.type == isl_obj_pw_qpolynomial &&
!isl_pw_qpolynomial_has_equal_space(obj1.v, obj2.v)) {
obj1 = to_union(s->ctx, obj1);
obj2 = to_union(s->ctx, obj2);
}
if (obj1.type == isl_obj_pw_qpolynomial_fold &&
!isl_pw_qpolynomial_fold_has_equal_space(obj1.v, obj2.v)) {
obj1 = to_union(s->ctx, obj1);
obj2 = to_union(s->ctx, obj2);
}
obj1.v = obj1.type->add(obj1.v, obj2.v);
return obj1;
error:
obj1.type->free(obj1.v);
obj2.type->free(obj2.v);
obj1.type = isl_obj_none;
obj1.v = NULL;
return obj1;
}
/* Are the first two tokens on "s", "domain" (either as a string
* or as an identifier) followed by ":"?
*/
static int next_is_domain_colon(__isl_keep isl_stream *s)
{
struct isl_token *tok;
char *name;
int res;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type != ISL_TOKEN_IDENT && tok->type != ISL_TOKEN_STRING) {
isl_stream_push_token(s, tok);
return 0;
}
name = isl_token_get_str(s->ctx, tok);
res = !strcmp(name, "domain") && isl_stream_next_token_is(s, ':');
free(name);
isl_stream_push_token(s, tok);
return res;
}
/* Do the first tokens on "s" look like a schedule?
*
* The root of a schedule is always a domain node, so the first thing
* we expect in the stream is a domain key, i.e., "domain" followed
* by ":". If the schedule was printed in YAML flow style, then
* we additionally expect a "{" to open the outer mapping.
*/
static int next_is_schedule(__isl_keep isl_stream *s)
{
struct isl_token *tok;
int is_schedule;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type != '{') {
isl_stream_push_token(s, tok);
return next_is_domain_colon(s);
}
is_schedule = next_is_domain_colon(s);
isl_stream_push_token(s, tok);
return is_schedule;
}
/* Read an isl_schedule from "s" and store it in an isl_obj.
*/
static struct isl_obj schedule_read(__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj.type = isl_obj_schedule;
obj.v = isl_stream_read_schedule(s);
return obj;
}
/* Read a disjunction of object bodies from "s".
* That is, read the inside of the braces, but not the braces themselves.
* "v" contains a description of the identifiers parsed so far.
* "map" contains information about the parameters.
*/
static struct isl_obj obj_read_disjuncts(__isl_keep isl_stream *s,
struct vars *v, __isl_keep isl_map *map)
{
struct isl_obj obj = { isl_obj_set, NULL };
if (isl_stream_next_token_is(s, '}')) {
obj.type = isl_obj_union_set;
obj.v = isl_union_set_empty(isl_map_get_space(map));
return obj;
}
for (;;) {
struct isl_obj o;
o = obj_read_body(s, isl_map_copy(map), v);
if (!obj.v)
obj = o;
else
obj = obj_add(s, obj, o);
if (obj.type == isl_obj_none || !obj.v)
return obj;
if (!isl_stream_eat_if_available(s, ';'))
break;
if (isl_stream_next_token_is(s, '}'))
break;
}
return obj;
}
static struct isl_obj obj_read(__isl_keep isl_stream *s)
{
isl_map *map = NULL;
struct isl_token *tok;
struct vars *v = NULL;
struct isl_obj obj = { isl_obj_set, NULL };
if (next_is_schedule(s))
return schedule_read(s);
tok = next_token(s);
if (!tok) {
isl_stream_error(s, NULL, "unexpected EOF");
goto error;
}
if (tok->type == ISL_TOKEN_VALUE) {
struct isl_token *tok2;
struct isl_map *map;
tok2 = isl_stream_next_token(s);
if (!tok2 || tok2->type != ISL_TOKEN_VALUE ||
isl_int_is_neg(tok2->u.v)) {
if (tok2)
isl_stream_push_token(s, tok2);
obj.type = isl_obj_val;
obj.v = isl_val_int_from_isl_int(s->ctx, tok->u.v);
isl_token_free(tok);
return obj;
}
isl_stream_push_token(s, tok2);
isl_stream_push_token(s, tok);
map = map_read_polylib(s);
if (!map)
goto error;
if (isl_map_may_be_set(map))
obj.v = isl_map_range(map);
else {
obj.type = isl_obj_map;
obj.v = map;
}
return obj;
}
v = vars_new(s->ctx);
if (!v) {
isl_stream_push_token(s, tok);
goto error;
}
map = isl_map_universe(isl_space_params_alloc(s->ctx, 0));
if (tok->type == '[') {
isl_stream_push_token(s, tok);
map = read_map_tuple(s, map, isl_dim_param, v, 0);
if (!map)
goto error;
tok = isl_stream_next_token(s);
if (!tok || tok->type != ISL_TOKEN_TO) {
isl_stream_error(s, tok, "expecting '->'");
if (tok)
isl_stream_push_token(s, tok);
goto error;
}
isl_token_free(tok);
tok = isl_stream_next_token(s);
}
if (!tok || tok->type != '{') {
isl_stream_error(s, tok, "expecting '{'");
if (tok)
isl_stream_push_token(s, tok);
goto error;
}
isl_token_free(tok);
tok = isl_stream_next_token(s);
if (!tok)
;
else if (tok->type == ISL_TOKEN_IDENT && !strcmp(tok->u.s, "Sym")) {
isl_token_free(tok);
if (isl_stream_eat(s, '='))
goto error;
map = read_map_tuple(s, map, isl_dim_param, v, 1);
if (!map)
goto error;
} else
isl_stream_push_token(s, tok);
obj = obj_read_disjuncts(s, v, map);
if (obj.type == isl_obj_none || !obj.v)
goto error;
tok = isl_stream_next_token(s);
if (tok && tok->type == '}') {
isl_token_free(tok);
} else {
isl_stream_error(s, tok, "unexpected isl_token");
if (tok)
isl_token_free(tok);
goto error;
}
vars_free(v);
isl_map_free(map);
return obj;
error:
isl_map_free(map);
obj.type->free(obj.v);
if (v)
vars_free(v);
obj.v = NULL;
return obj;
}
struct isl_obj isl_stream_read_obj(__isl_keep isl_stream *s)
{
return obj_read(s);
}
__isl_give isl_map *isl_stream_read_map(__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.v)
isl_assert(s->ctx, obj.type == isl_obj_map ||
obj.type == isl_obj_set, goto error);
if (obj.type == isl_obj_set)
obj.v = isl_map_from_range(obj.v);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
__isl_give isl_set *isl_stream_read_set(__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.v) {
if (obj.type == isl_obj_map && isl_map_may_be_set(obj.v)) {
obj.v = isl_map_range(obj.v);
obj.type = isl_obj_set;
}
isl_assert(s->ctx, obj.type == isl_obj_set, goto error);
}
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
__isl_give isl_union_map *isl_stream_read_union_map(__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.type == isl_obj_map) {
obj.type = isl_obj_union_map;
obj.v = isl_union_map_from_map(obj.v);
}
if (obj.type == isl_obj_set) {
obj.type = isl_obj_union_set;
obj.v = isl_union_set_from_set(obj.v);
}
if (obj.v && obj.type == isl_obj_union_set &&
isl_union_set_is_empty(obj.v))
obj.type = isl_obj_union_map;
if (obj.v && obj.type != isl_obj_union_map)
isl_die(s->ctx, isl_error_invalid, "invalid input", goto error);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
/* Extract an isl_union_set from "obj".
* This only works if the object was detected as either a set
* (in which case it is converted to a union set) or a union set.
*/
static __isl_give isl_union_set *extract_union_set(isl_ctx *ctx,
struct isl_obj obj)
{
if (obj.type == isl_obj_set) {
obj.type = isl_obj_union_set;
obj.v = isl_union_set_from_set(obj.v);
}
if (obj.v)
isl_assert(ctx, obj.type == isl_obj_union_set, goto error);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
/* Read an isl_union_set from "s".
* First read a generic object and then try and extract
* an isl_union_set from that.
*/
__isl_give isl_union_set *isl_stream_read_union_set(__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
return extract_union_set(s->ctx, obj);
}
static __isl_give isl_basic_map *isl_stream_read_basic_map(
__isl_keep isl_stream *s)
{
struct isl_obj obj;
struct isl_map *map;
struct isl_basic_map *bmap;
obj = obj_read(s);
if (obj.v && (obj.type != isl_obj_map && obj.type != isl_obj_set))
isl_die(s->ctx, isl_error_invalid, "not a (basic) set or map",
goto error);
map = obj.v;
if (!map)
return NULL;
if (map->n > 1)
isl_die(s->ctx, isl_error_invalid,
"set or map description involves "
"more than one disjunct", goto error);
if (map->n == 0)
bmap = isl_basic_map_empty(isl_map_get_space(map));
else
bmap = isl_basic_map_copy(map->p[0]);
isl_map_free(map);
return bmap;
error:
obj.type->free(obj.v);
return NULL;
}
/* Read an isl_basic_set object from "s".
*/
__isl_give isl_basic_set *isl_stream_read_basic_set(__isl_keep isl_stream *s)
{
isl_basic_map *bmap;
bmap = isl_stream_read_basic_map(s);
if (!bmap)
return NULL;
if (!isl_basic_map_may_be_set(bmap))
isl_die(s->ctx, isl_error_invalid,
"input is not a set", goto error);
return isl_basic_map_range(bmap);
error:
isl_basic_map_free(bmap);
return NULL;
}
__isl_give isl_basic_map *isl_basic_map_read_from_file(isl_ctx *ctx,
FILE *input)
{
struct isl_basic_map *bmap;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
bmap = isl_stream_read_basic_map(s);
isl_stream_free(s);
return bmap;
}
__isl_give isl_basic_set *isl_basic_set_read_from_file(isl_ctx *ctx,
FILE *input)
{
isl_basic_set *bset;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
bset = isl_stream_read_basic_set(s);
isl_stream_free(s);
return bset;
}
#undef TYPE_BASE
#define TYPE_BASE basic_map
#include "isl_read_from_str_templ.c"
#undef TYPE_BASE
#define TYPE_BASE basic_set
#include "isl_read_from_str_templ.c"
__isl_give isl_map *isl_map_read_from_file(struct isl_ctx *ctx,
FILE *input)
{
struct isl_map *map;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
map = isl_stream_read_map(s);
isl_stream_free(s);
return map;
}
#undef TYPE_BASE
#define TYPE_BASE map
#include "isl_read_from_str_templ.c"
__isl_give isl_set *isl_set_read_from_file(struct isl_ctx *ctx,
FILE *input)
{
isl_set *set;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
set = isl_stream_read_set(s);
isl_stream_free(s);
return set;
}
#undef TYPE_BASE
#define TYPE_BASE set
#include "isl_read_from_str_templ.c"
__isl_give isl_union_map *isl_union_map_read_from_file(isl_ctx *ctx,
FILE *input)
{
isl_union_map *umap;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
umap = isl_stream_read_union_map(s);
isl_stream_free(s);
return umap;
}
#undef TYPE_BASE
#define TYPE_BASE union_map
#include "isl_read_from_str_templ.c"
__isl_give isl_union_set *isl_union_set_read_from_file(isl_ctx *ctx,
FILE *input)
{
isl_union_set *uset;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
uset = isl_stream_read_union_set(s);
isl_stream_free(s);
return uset;
}
#undef TYPE_BASE
#define TYPE_BASE union_set
#include "isl_read_from_str_templ.c"
static __isl_give isl_vec *isl_vec_read_polylib(__isl_keep isl_stream *s)
{
struct isl_vec *vec = NULL;
struct isl_token *tok;
unsigned size;
int j;
tok = isl_stream_next_token(s);
if (!tok || tok->type != ISL_TOKEN_VALUE) {
isl_stream_error(s, tok, "expecting vector length");
goto error;
}
size = isl_int_get_si(tok->u.v);
isl_token_free(tok);
vec = isl_vec_alloc(s->ctx, size);
for (j = 0; j < size; ++j) {
tok = next_signed_value(s, "expecting constant value");
if (!tok)
goto error;
isl_int_set(vec->el[j], tok->u.v);
isl_token_free(tok);
}
return vec;
error:
isl_token_free(tok);
isl_vec_free(vec);
return NULL;
}
static __isl_give isl_vec *vec_read(__isl_keep isl_stream *s)
{
return isl_vec_read_polylib(s);
}
__isl_give isl_vec *isl_vec_read_from_file(isl_ctx *ctx, FILE *input)
{
isl_vec *v;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
v = vec_read(s);
isl_stream_free(s);
return v;
}
__isl_give isl_pw_qpolynomial *isl_stream_read_pw_qpolynomial(
__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.v)
isl_assert(s->ctx, obj.type == isl_obj_pw_qpolynomial,
goto error);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE pw_qpolynomial
#include "isl_read_from_str_templ.c"
__isl_give isl_pw_qpolynomial *isl_pw_qpolynomial_read_from_file(isl_ctx *ctx,
FILE *input)
{
isl_pw_qpolynomial *pwqp;
isl_stream *s = isl_stream_new_file(ctx, input);
if (!s)
return NULL;
pwqp = isl_stream_read_pw_qpolynomial(s);
isl_stream_free(s);
return pwqp;
}
/* Read an isl_pw_qpolynomial_fold from "s".
* First read a generic object and
* then check that it is an isl_pw_qpolynomial_fold.
*/
__isl_give isl_pw_qpolynomial_fold *isl_stream_read_pw_qpolynomial_fold(
__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.v && obj.type != isl_obj_pw_qpolynomial_fold)
isl_die(s->ctx, isl_error_invalid, "invalid input", goto error);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE pw_qpolynomial_fold
#include "isl_read_from_str_templ.c"
/* Is the next token an identifier not in "v"?
*/
static int next_is_fresh_ident(__isl_keep isl_stream *s, struct vars *v)
{
int n = v->n;
int fresh;
struct isl_token *tok;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
fresh = tok->type == ISL_TOKEN_IDENT && vars_pos(v, tok->u.s, -1) >= n;
isl_stream_push_token(s, tok);
vars_drop(v, v->n - n);
return fresh;
}
/* First read the domain of the affine expression, which may be
* a parameter space or a set.
* The tricky part is that we don't know if the domain is a set or not,
* so when we are trying to read the domain, we may actually be reading
* the affine expression itself (defined on a parameter domains)
* If the tuple we are reading is named, we assume it's the domain.
* Also, if inside the tuple, the first thing we find is a nested tuple
* or a new identifier, we again assume it's the domain.
* Finally, if the tuple is empty, then it must be the domain
* since it does not contain an affine expression.
* Otherwise, we assume we are reading an affine expression.
*/
static __isl_give isl_set *read_aff_domain(__isl_keep isl_stream *s,
__isl_take isl_set *dom, struct vars *v)
{
struct isl_token *tok, *tok2;
int is_empty;
tok = isl_stream_next_token(s);
if (tok && (tok->type == ISL_TOKEN_IDENT || tok->is_keyword)) {
isl_stream_push_token(s, tok);
return read_map_tuple(s, dom, isl_dim_set, v, 0);
}
if (!tok || tok->type != '[') {
isl_stream_error(s, tok, "expecting '['");
goto error;
}
tok2 = isl_stream_next_token(s);
is_empty = tok2 && tok2->type == ']';
if (tok2)
isl_stream_push_token(s, tok2);
if (is_empty || next_is_tuple(s) || next_is_fresh_ident(s, v)) {
isl_stream_push_token(s, tok);
dom = read_map_tuple(s, dom, isl_dim_set, v, 0);
} else
isl_stream_push_token(s, tok);
return dom;
error:
if (tok)
isl_stream_push_token(s, tok);
isl_set_free(dom);
return NULL;
}
/* Read an affine expression from "s".
*/
__isl_give isl_aff *isl_stream_read_aff(__isl_keep isl_stream *s)
{
isl_aff *aff;
isl_multi_aff *ma;
isl_size dim;
ma = isl_stream_read_multi_aff(s);
dim = isl_multi_aff_dim(ma, isl_dim_out);
if (dim < 0)
goto error;
if (dim != 1)
isl_die(s->ctx, isl_error_invalid,
"expecting single affine expression",
goto error);
aff = isl_multi_aff_get_aff(ma, 0);
isl_multi_aff_free(ma);
return aff;
error:
isl_multi_aff_free(ma);
return NULL;
}
/* Read a piecewise affine expression from "s" with domain (space) "dom".
*/
static __isl_give isl_pw_aff *read_pw_aff_with_dom(__isl_keep isl_stream *s,
__isl_take isl_set *dom, struct vars *v)
{
isl_pw_aff *pwaff = NULL;
if (!isl_set_is_params(dom) && isl_stream_eat(s, ISL_TOKEN_TO))
goto error;
if (isl_stream_eat(s, '['))
goto error;
pwaff = accept_affine(s, isl_set_get_space(dom), v);
if (isl_stream_eat(s, ']'))
goto error;
dom = read_optional_formula(s, dom, v, 0);
pwaff = isl_pw_aff_intersect_domain(pwaff, dom);
return pwaff;
error:
isl_set_free(dom);
isl_pw_aff_free(pwaff);
return NULL;
}
/* Read an affine expression, together with optional constraints
* on the domain from "s". "dom" represents the initial constraints
* on the parameter domain.
* "v" contains a description of the identifiers parsed so far.
*/
static __isl_give isl_pw_aff *read_conditional_aff(__isl_keep isl_stream *s,
__isl_take isl_set *dom, struct vars *v)
{
isl_set *aff_dom;
isl_pw_aff *pa;
int n;
n = v->n;
aff_dom = read_aff_domain(s, dom, v);
pa = read_pw_aff_with_dom(s, aff_dom, v);
vars_drop(v, v->n - n);
return pa;
}
#undef BASE
#define BASE aff
#include "isl_stream_read_pw_with_params_templ.c"
#undef TYPE_BASE
#define TYPE_BASE aff
#include "isl_read_from_str_templ.c"
#undef TYPE_BASE
#define TYPE_BASE pw_aff
#include "isl_stream_read_with_params_templ.c"
#include "isl_read_from_str_templ.c"
/* Given that "pa" is the element at position "pos" of a tuple
* returned by read_tuple, check that it does not involve any
* output/set dimensions (appearing at the "n" positions starting at "first"),
* remove those from the domain and replace the domain space
* with "domain_space".
*
* In particular, the result of read_tuple is of the form
* [input, output] -> [output], with anonymous domain.
* The function read_tuple accepts tuples where some output or
* set dimensions are defined in terms of other output or set dimensions
* since this function is also used to read maps. As a special case,
* read_tuple also accepts dimensions that are defined in terms of themselves
* (i.e., that are not defined).
* These cases are not allowed here.
*/
static __isl_give isl_pw_aff *separate_tuple_entry(__isl_take isl_pw_aff *pa,
int pos, unsigned first, unsigned n, __isl_take isl_space *domain_space)
{
isl_bool involves;
involves = isl_pw_aff_involves_dims(pa, isl_dim_in, first, pos + 1);
if (involves < 0) {
pa = isl_pw_aff_free(pa);
} else if (involves) {
isl_die(isl_pw_aff_get_ctx(pa), isl_error_invalid,
"not an affine expression",
pa = isl_pw_aff_free(pa));
}
pa = isl_pw_aff_drop_dims(pa, isl_dim_in, first, n);
pa = isl_pw_aff_reset_domain_space(pa, domain_space);
return pa;
}
/* Set entry "pos" of "mpa" to the corresponding entry in "tuple",
* as obtained from read_tuple().
* The "n" output dimensions also appear among the input dimensions
* at position "first".
*
* The entry is not allowed to depend on any (other) output dimensions.
*/
static __isl_give isl_multi_pw_aff *isl_multi_pw_aff_set_tuple_entry(
__isl_take isl_multi_pw_aff *mpa, __isl_take isl_pw_aff *tuple_el,
int pos, unsigned first, unsigned n)
{
isl_space *space;
isl_pw_aff *pa;
space = isl_multi_pw_aff_get_domain_space(mpa);
pa = separate_tuple_entry(tuple_el, pos, first, n, space);
return isl_multi_pw_aff_set_pw_aff(mpa, pos, pa);
}
#undef BASE
#define BASE pw_aff
#include <isl_multi_from_tuple_templ.c>
/* Read a tuple of piecewise affine expressions,
* including optional constraints on the domain from "s".
* "dom" represents the initial constraints on the domain.
*
* The input format is similar to that of a map, except that any conditions
* on the domains should be specified inside the tuple since each
* piecewise affine expression may have a different domain.
* However, additional, shared conditions can also be specified.
* This is especially useful for setting the explicit domain
* of a zero-dimensional isl_multi_pw_aff.
*
* The isl_multi_pw_aff may live in either a set or a map space.
* First read the first tuple and check if it is followed by a "->".
* If so, convert the tuple into the domain of the isl_multi_pw_aff and
* read in the next tuple. This tuple (or the first tuple if it was
* not followed by a "->") is then converted into an isl_multi_pw_aff
* through a call to isl_multi_pw_aff_from_tuple.
* The domain of the result is intersected with the domain.
*
* Note that the last tuple may introduce new identifiers,
* but these cannot be referenced in the description of the domain.
*/
static __isl_give isl_multi_pw_aff *read_conditional_multi_pw_aff(
__isl_keep isl_stream *s, __isl_take isl_set *dom, struct vars *v)
{
isl_multi_pw_aff *tuple;
isl_multi_pw_aff *mpa;
int n = v->n;
int n_dom;
n_dom = v->n;
tuple = read_tuple(s, v, 0, 0);
if (!tuple)
goto error;
if (isl_stream_eat_if_available(s, ISL_TOKEN_TO)) {
isl_map *map = map_from_tuple(tuple, dom, isl_dim_in, v, 0);
dom = isl_map_domain(map);
n_dom = v->n;
tuple = read_tuple(s, v, 0, 0);
if (!tuple)
goto error;
}
mpa = isl_multi_pw_aff_from_tuple(isl_set_get_space(dom), tuple);
if (!mpa)
dom = isl_set_free(dom);
vars_drop(v, v->n - n_dom);
dom = read_optional_formula(s, dom, v, 0);
vars_drop(v, v->n - n);
mpa = isl_multi_pw_aff_intersect_domain(mpa, dom);
return mpa;
error:
isl_set_free(dom);
return NULL;
}
/* Read a tuple of affine expressions, together with optional constraints
* on the domain from "s". "dom" represents the initial constraints
* on the domain.
*
* Read a tuple of piecewise affine expressions with optional constraints and
* convert the result to an isl_pw_multi_aff on the shared domain.
*/
static __isl_give isl_pw_multi_aff *read_conditional_multi_aff(
__isl_keep isl_stream *s, __isl_take isl_set *dom, struct vars *v)
{
isl_multi_pw_aff *mpa;
mpa = read_conditional_multi_pw_aff(s, dom, v);
return isl_pw_multi_aff_from_multi_pw_aff(mpa);
}
/* Read an isl_union_pw_multi_aff from "s" with parameter domain "dom".
* "v" contains a description of the identifiers parsed so far.
*
* In particular, read a sequence
* of zero or more tuples of affine expressions with optional conditions and
* add them up.
*/
static __isl_give isl_union_pw_multi_aff *
isl_stream_read_with_params_union_pw_multi_aff(__isl_keep isl_stream *s,
__isl_keep isl_set *dom, struct vars *v)
{
isl_union_pw_multi_aff *upma;
upma = isl_union_pw_multi_aff_empty(isl_set_get_space(dom));
do {
isl_pw_multi_aff *pma;
isl_union_pw_multi_aff *upma2;
if (isl_stream_next_token_is(s, '}'))
break;
pma = read_conditional_multi_aff(s, isl_set_copy(dom), v);
upma2 = isl_union_pw_multi_aff_from_pw_multi_aff(pma);
upma = isl_union_pw_multi_aff_union_add(upma, upma2);
if (!upma)
return NULL;
} while (isl_stream_eat_if_available(s, ';'));
return upma;
}
#undef BASE
#define BASE multi_aff
#include "isl_stream_read_pw_with_params_templ.c"
#undef TYPE_BASE
#define TYPE_BASE pw_multi_aff
#include "isl_stream_read_with_params_templ.c"
#include "isl_read_from_str_templ.c"
#undef TYPE_BASE
#define TYPE_BASE union_pw_multi_aff
#include "isl_stream_read_with_params_templ.c"
#include "isl_read_from_str_templ.c"
#undef BASE
#define BASE val
#include <isl_multi_read_no_explicit_domain_templ.c>
#undef BASE
#define BASE id
#include <isl_multi_read_no_explicit_domain_templ.c>
/* Set entry "pos" of "ma" to the corresponding entry in "tuple",
* as obtained from read_tuple().
* The "n" output dimensions also appear among the input dimensions
* at position "first".
*
* The entry is not allowed to depend on any (other) output dimensions.
*/
static __isl_give isl_multi_aff *isl_multi_aff_set_tuple_entry(
__isl_take isl_multi_aff *ma, __isl_take isl_pw_aff *tuple_el,
int pos, unsigned first, unsigned n)
{
isl_space *space;
isl_pw_aff *pa;
isl_aff *aff;
space = isl_multi_aff_get_domain_space(ma);
pa = separate_tuple_entry(tuple_el, pos, first, n, space);
aff = isl_pw_aff_as_aff(pa);
return isl_multi_aff_set_aff(ma, pos, aff);
}
#undef BASE
#define BASE aff
#include <isl_multi_from_tuple_templ.c>
/* Read a multi-affine expression from "s".
* If the multi-affine expression has a domain, then the tuple
* representing this domain cannot involve any affine expressions.
* The tuple representing the actual expressions needs to consist
* of only affine expressions.
*/
__isl_give isl_multi_aff *isl_stream_read_multi_aff(__isl_keep isl_stream *s)
{
struct vars *v;
isl_multi_pw_aff *tuple = NULL;
isl_space *dom_space = NULL;
isl_multi_aff *ma = NULL;
v = vars_new(s->ctx);
if (!v)
return NULL;
dom_space = read_params(s, v);
if (!dom_space)
goto error;
if (isl_stream_eat(s, '{'))
goto error;
tuple = read_tuple(s, v, 0, 0);
if (!tuple)
goto error;
if (isl_stream_eat_if_available(s, ISL_TOKEN_TO)) {
isl_space *space;
isl_bool has_expr;
has_expr = tuple_has_expr(tuple);
if (has_expr < 0)
goto error;
if (has_expr)
isl_die(s->ctx, isl_error_invalid,
"expecting universe domain", goto error);
space = isl_space_range(isl_multi_pw_aff_get_space(tuple));
dom_space = isl_space_align_params(space, dom_space);
isl_multi_pw_aff_free(tuple);
tuple = read_tuple(s, v, 0, 0);
if (!tuple)
goto error;
}
if (isl_stream_eat(s, '}'))
goto error;
ma = isl_multi_aff_from_tuple(dom_space, tuple);
vars_free(v);
return ma;
error:
isl_multi_pw_aff_free(tuple);
vars_free(v);
isl_space_free(dom_space);
isl_multi_aff_free(ma);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE multi_aff
#include "isl_read_from_str_templ.c"
/* Read an isl_multi_pw_aff from "s" with parameter domain "dom"..
* "v" contains a description of the identifiers parsed so far.
*/
static __isl_give isl_multi_pw_aff *isl_stream_read_with_params_multi_pw_aff(
__isl_keep isl_stream *s, __isl_keep isl_set *dom, struct vars *v)
{
return read_conditional_multi_pw_aff(s, isl_set_copy(dom), v);
}
#undef TYPE_BASE
#define TYPE_BASE multi_pw_aff
#include "isl_stream_read_with_params_templ.c"
#include "isl_read_from_str_templ.c"
/* Read the body of an isl_union_pw_aff from "s" with parameter domain "dom".
*/
static __isl_give isl_union_pw_aff *read_union_pw_aff_with_dom(
__isl_keep isl_stream *s, __isl_take isl_set *dom, struct vars *v)
{
isl_pw_aff *pa;
isl_union_pw_aff *upa = NULL;
isl_set *aff_dom;
int n;
n = v->n;
aff_dom = read_aff_domain(s, isl_set_copy(dom), v);
pa = read_pw_aff_with_dom(s, aff_dom, v);
vars_drop(v, v->n - n);
upa = isl_union_pw_aff_from_pw_aff(pa);
while (isl_stream_eat_if_available(s, ';')) {
isl_pw_aff *pa_i;
isl_union_pw_aff *upa_i;
n = v->n;
aff_dom = read_aff_domain(s, isl_set_copy(dom), v);
pa_i = read_pw_aff_with_dom(s, aff_dom, v);
vars_drop(v, v->n - n);
upa_i = isl_union_pw_aff_from_pw_aff(pa_i);
upa = isl_union_pw_aff_union_add(upa, upa_i);
}
isl_set_free(dom);
return upa;
}
/* Read an isl_union_pw_aff from "s" with parameter domain "dom".
* "v" contains a description of the identifiers parsed so far.
*/
static __isl_give isl_union_pw_aff *isl_stream_read_with_params_union_pw_aff(
__isl_keep isl_stream *s, __isl_keep isl_set *dom, struct vars *v)
{
return read_union_pw_aff_with_dom(s, isl_set_copy(dom), v);
}
#undef TYPE_BASE
#define TYPE_BASE union_pw_aff
#include "isl_stream_read_with_params_templ.c"
#include "isl_read_from_str_templ.c"
/* This function is called for each element in a tuple inside
* isl_stream_read_multi_union_pw_aff.
*
* Read a '{', the union piecewise affine expression body and a '}' and
* add the isl_union_pw_aff to *list.
*/
static __isl_give isl_space *read_union_pw_aff_el(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space, int rational, void *user)
{
isl_set *dom;
isl_union_pw_aff *upa;
isl_union_pw_aff_list **list = (isl_union_pw_aff_list **) user;
dom = isl_set_universe(isl_space_params(isl_space_copy(space)));
if (isl_stream_eat(s, '{'))
goto error;
upa = read_union_pw_aff_with_dom(s, dom, v);
*list = isl_union_pw_aff_list_add(*list, upa);
if (isl_stream_eat(s, '}'))
return isl_space_free(space);
if (!*list)
return isl_space_free(space);
return space;
error:
isl_set_free(dom);
return isl_space_free(space);
}
/* Do the next tokens in "s" correspond to an empty tuple?
* In particular, does the stream start with a '[', followed by a ']',
* not followed by a "->"?
*/
static int next_is_empty_tuple(__isl_keep isl_stream *s)
{
struct isl_token *tok, *tok2, *tok3;
int is_empty_tuple = 0;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type != '[') {
isl_stream_push_token(s, tok);
return 0;
}
tok2 = isl_stream_next_token(s);
if (tok2 && tok2->type == ']') {
tok3 = isl_stream_next_token(s);
is_empty_tuple = !tok || tok->type != ISL_TOKEN_TO;
if (tok3)
isl_stream_push_token(s, tok3);
}
if (tok2)
isl_stream_push_token(s, tok2);
isl_stream_push_token(s, tok);
return is_empty_tuple;
}
/* Do the next tokens in "s" correspond to a tuple of parameters?
* In particular, does the stream start with a '[' that is not
* followed by a '{' or a nested tuple?
*/
static int next_is_param_tuple(__isl_keep isl_stream *s)
{
struct isl_token *tok, *tok2;
int is_tuple;
tok = isl_stream_next_token(s);
if (!tok)
return 0;
if (tok->type != '[' || next_is_tuple(s)) {
isl_stream_push_token(s, tok);
return 0;
}
tok2 = isl_stream_next_token(s);
is_tuple = tok2 && tok2->type != '{';
if (tok2)
isl_stream_push_token(s, tok2);
isl_stream_push_token(s, tok);
return is_tuple;
}
/* Read the core of a body of an isl_multi_union_pw_aff from "s",
* i.e., everything except the parameter specification and
* without shared domain constraints.
* "v" contains a description of the identifiers parsed so far.
* The parameters, if any, are specified by "space".
*
* The body is of the form
*
* [{ [..] : ... ; [..] : ... }, { [..] : ... ; [..] : ... }]
*
* Read the tuple, collecting the individual isl_union_pw_aff
* elements in a list and construct the result from the tuple space and
* the list.
*/
static __isl_give isl_multi_union_pw_aff *read_multi_union_pw_aff_body_core(
__isl_keep isl_stream *s, struct vars *v, __isl_take isl_space *space)
{
isl_union_pw_aff_list *list;
isl_multi_union_pw_aff *mupa;
list = isl_union_pw_aff_list_alloc(s->ctx, 0);
space = read_tuple_space(s, v, space, 1, 0,
&read_union_pw_aff_el, &list);
mupa = isl_multi_union_pw_aff_from_union_pw_aff_list(space, list);
return mupa;
}
/* Read the body of an isl_union_set from "s",
* i.e., everything except the parameter specification.
* "v" contains a description of the identifiers parsed so far.
* The parameters, if any, are specified by "space".
*
* First read a generic disjunction of object bodies and then try and extract
* an isl_union_set from that.
*/
static __isl_give isl_union_set *read_union_set_body(__isl_keep isl_stream *s,
struct vars *v, __isl_take isl_space *space)
{
struct isl_obj obj = { isl_obj_set, NULL };
isl_map *map;
map = isl_set_universe(space);
if (isl_stream_eat(s, '{') < 0)
goto error;
obj = obj_read_disjuncts(s, v, map);
if (isl_stream_eat(s, '}') < 0)
goto error;
isl_map_free(map);
return extract_union_set(s->ctx, obj);
error:
obj.type->free(obj.v);
isl_map_free(map);
return NULL;
}
/* Read the body of an isl_multi_union_pw_aff from "s",
* i.e., everything except the parameter specification.
* "v" contains a description of the identifiers parsed so far.
* The parameters, if any, are specified by "space".
*
* In particular, handle the special case with shared domain constraints.
* These are specified as
*
* ([...] : ...)
*
* and are especially useful for setting the explicit domain
* of a zero-dimensional isl_multi_union_pw_aff.
* The core isl_multi_union_pw_aff body ([...]) is read by
* read_multi_union_pw_aff_body_core.
*/
static __isl_give isl_multi_union_pw_aff *read_multi_union_pw_aff_body(
__isl_keep isl_stream *s, struct vars *v, __isl_take isl_space *space)
{
isl_multi_union_pw_aff *mupa;
if (!isl_stream_next_token_is(s, '('))
return read_multi_union_pw_aff_body_core(s, v, space);
if (isl_stream_eat(s, '(') < 0)
goto error;
mupa = read_multi_union_pw_aff_body_core(s, v, isl_space_copy(space));
if (isl_stream_eat_if_available(s, ':')) {
isl_union_set *dom;
dom = read_union_set_body(s, v, space);
mupa = isl_multi_union_pw_aff_intersect_domain(mupa, dom);
} else {
isl_space_free(space);
}
if (isl_stream_eat(s, ')') < 0)
return isl_multi_union_pw_aff_free(mupa);
return mupa;
error:
isl_space_free(space);
return NULL;
}
/* Read an isl_multi_union_pw_aff from "s".
*
* The input has the form
*
* [{ [..] : ... ; [..] : ... }, { [..] : ... ; [..] : ... }]
*
* or
*
* [..] -> [{ [..] : ... ; [..] : ... }, { [..] : ... ; [..] : ... }]
*
* Additionally, a shared domain may be specified as
*
* ([..] : ...)
*
* or
*
* [..] -> ([..] : ...)
*
* The first case is handled by the caller, the second case
* is handled by read_multi_union_pw_aff_body.
*
* We first check for the special case of an empty tuple "[]".
* Then we check if there are any parameters.
* Finally, read the tuple and construct the result.
*/
static __isl_give isl_multi_union_pw_aff *read_multi_union_pw_aff_core(
__isl_keep isl_stream *s)
{
struct vars *v;
isl_set *dom = NULL;
isl_space *space;
isl_multi_union_pw_aff *mupa = NULL;
if (next_is_empty_tuple(s)) {
if (isl_stream_eat(s, '['))
return NULL;
if (isl_stream_eat(s, ']'))
return NULL;
space = isl_space_set_alloc(s->ctx, 0, 0);
return isl_multi_union_pw_aff_zero(space);
}
v = vars_new(s->ctx);
if (!v)
return NULL;
dom = isl_set_universe(isl_space_params_alloc(s->ctx, 0));
if (next_is_param_tuple(s)) {
dom = read_map_tuple(s, dom, isl_dim_param, v, 0);
if (isl_stream_eat(s, ISL_TOKEN_TO))
goto error;
}
space = isl_set_get_space(dom);
isl_set_free(dom);
mupa = read_multi_union_pw_aff_body(s, v, space);
vars_free(v);
return mupa;
error:
vars_free(v);
isl_set_free(dom);
isl_multi_union_pw_aff_free(mupa);
return NULL;
}
/* Read an isl_multi_union_pw_aff from "s".
*
* In particular, handle the special case with shared domain constraints.
* These are specified as
*
* ([...] : ...)
*
* and are especially useful for setting the explicit domain
* of a zero-dimensional isl_multi_union_pw_aff.
* The core isl_multi_union_pw_aff ([...]) is read by
* read_multi_union_pw_aff_core.
*/
__isl_give isl_multi_union_pw_aff *isl_stream_read_multi_union_pw_aff(
__isl_keep isl_stream *s)
{
isl_multi_union_pw_aff *mupa;
if (!isl_stream_next_token_is(s, '('))
return read_multi_union_pw_aff_core(s);
if (isl_stream_eat(s, '(') < 0)
return NULL;
mupa = read_multi_union_pw_aff_core(s);
if (isl_stream_eat_if_available(s, ':')) {
isl_union_set *dom;
dom = isl_stream_read_union_set(s);
mupa = isl_multi_union_pw_aff_intersect_domain(mupa, dom);
}
if (isl_stream_eat(s, ')') < 0)
return isl_multi_union_pw_aff_free(mupa);
return mupa;
}
#undef TYPE_BASE
#define TYPE_BASE multi_union_pw_aff
#include "isl_read_from_str_templ.c"
__isl_give isl_union_pw_qpolynomial *isl_stream_read_union_pw_qpolynomial(
__isl_keep isl_stream *s)
{
struct isl_obj obj;
obj = obj_read(s);
if (obj.type == isl_obj_pw_qpolynomial) {
obj.type = isl_obj_union_pw_qpolynomial;
obj.v = isl_union_pw_qpolynomial_from_pw_qpolynomial(obj.v);
}
if (obj.v)
isl_assert(s->ctx, obj.type == isl_obj_union_pw_qpolynomial,
goto error);
return obj.v;
error:
obj.type->free(obj.v);
return NULL;
}
#undef TYPE_BASE
#define TYPE_BASE union_pw_qpolynomial
#include "isl_read_from_str_templ.c"
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