These files translate the Kconfig-model into propositional logic and
store the constraints for each symbol in the corresponding struct.
Co-developed-by: Patrick Franz <deltaone@debian.org>
Signed-off-by: Patrick Franz <deltaone@debian.org>
Co-developed-by: Ibrahim Fayaz <phayax@gmail.com>
Signed-off-by: Ibrahim Fayaz <phayax@gmail.com>
Reviewed-by: Luis Chamberlain <mcgrof@kernel.org>
Tested-by: Evgeny Groshev <eugene.groshev@gmail.com>
Suggested-by: Sarah Nadi <nadi@ualberta.ca>
Suggested-by: Thorsten Berger <thorsten.berger@rub.de>
Signed-off-by: Thorsten Berger <thorsten.berger@rub.de>
Signed-off-by: Ole Schuerks <ole0811sch@gmail.com>
---
scripts/kconfig/cf_constraints.c | 1779 ++++++++++++++++++++++++++++++
scripts/kconfig/cf_constraints.h | 24 +
2 files changed, 1803 insertions(+)
create mode 100644 scripts/kconfig/cf_constraints.c
create mode 100644 scripts/kconfig/cf_constraints.h
diff --git a/scripts/kconfig/cf_constraints.c b/scripts/kconfig/cf_constraints.c
new file mode 100644
index 000000000000..2181b823c73f
--- /dev/null
+++ b/scripts/kconfig/cf_constraints.c
@@ -0,0 +1,1779 @@
+// SPDX-License-Identifier: GPL-2.0
+/*
+ * Copyright (C) 2023 Patrick Franz <deltaone@debian.org>
+ */
+
+#include "cf_defs.h"
+#include "expr.h"
+#include "list.h"
+#define _GNU_SOURCE
+#include <assert.h>
+#include <locale.h>
+#include <stdarg.h>
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <time.h>
+#include <unistd.h>
+
+#include "cf_utils.h"
+#include "internal.h"
+#include "cf_expr.h"
+#include "cf_constraints.h"
+
+#define KCR_CMP false
+#define NPC_OPTIMISATION true
+
+static void find_nonboolean_known_vals(struct cfdata *data);
+static void build_constraints_bool(struct cfdata *data);
+static void build_constraints_select(struct cfdata *data);
+static void build_constraints_nonbool(struct cfdata *data);
+
+static void build_tristate_constraint_clause(struct symbol *sym,
+ struct cfdata *data);
+
+static void add_selects_kcr(struct symbol *sym, struct cfdata *data);
+static void add_selects(struct symbol *sym, struct cfdata *data);
+
+static void add_dependencies_bool(struct symbol *sym, struct cfdata *data);
+static void add_dependencies_bool_kcr(struct symbol *sym, struct cfdata *data);
+static void add_dependencies_nonbool(struct symbol *sym, struct cfdata *data);
+
+static void add_choice_prompt_cond(struct symbol *sym, struct cfdata *data);
+static void add_choice_dependencies(struct symbol *sym, struct cfdata *data);
+static void add_choice_constraints(struct symbol *sym, struct cfdata *data);
+static void add_invisible_constraints(struct symbol *sym, struct cfdata *data);
+static void sym_nonbool_at_least_1(struct symbol *sym, struct cfdata *data);
+static void sym_nonbool_at_most_1(struct symbol *sym, struct cfdata *data);
+static void sym_add_nonbool_values_from_default_range(struct symbol *sym,
+ struct cfdata *data);
+static void sym_add_range_constraints(struct symbol *sym, struct cfdata *data);
+static void sym_add_nonbool_prompt_constraint(struct symbol *sym,
+ struct cfdata *data);
+
+static struct default_map *create_default_map_entry(struct fexpr *val,
+ struct pexpr *e);
+static struct defm_list *calc_default_conditions(struct symbol *sym, struct cfdata *data);
+static struct pexpr *get_default_y(struct defm_list *list, struct cfdata *data);
+static struct pexpr *get_default_m(struct defm_list *list, struct cfdata *data);
+static struct pexpr *get_default_any(struct symbol *sym, struct cfdata *data);
+static long sym_get_range_val(struct symbol *sym, int base);
+
+/* -------------------------------------- */
+
+/*
+ * build the constraints for each symbol
+ */
+void build_constraints(struct cfdata *data)
+{
+ printd("Building constraints...");
+
+ find_nonboolean_known_vals(data);
+ build_constraints_bool(data);
+ build_constraints_select(data);
+ build_constraints_nonbool(data);
+}
+
+/*
+ * need to go through the constraints once to find all "known values"
+ * for the non-Boolean symbols (and add them to sym->nb_vals for the given
+ * symbols).
+ * expr_calculate_pexpr_both and get_defaults have the side effect of creating
+ * known values.
+ */
+static void find_nonboolean_known_vals(struct cfdata *data)
+{
+ struct symbol *sym;
+ struct property *p;
+
+ for_all_symbols(sym) {
+ struct property *prompt;
+
+ if (sym->type == S_UNKNOWN)
+ continue;
+
+ if (sym_is_boolean(sym)) {
+ for_all_properties(sym, p, P_SELECT)
+ pexpr_put(expr_calculate_pexpr_both(
+ p->visible.expr, data));
+
+ for_all_properties(sym, p, P_IMPLY)
+ pexpr_put(expr_calculate_pexpr_both(
+ p->visible.expr, data));
+ }
+
+ if (sym->dir_dep.expr)
+ pexpr_put(expr_calculate_pexpr_both(sym->dir_dep.expr,
+ data));
+
+ prompt = sym_get_prompt(sym);
+ if (prompt != NULL && prompt->visible.expr) {
+ pexpr_put(expr_calculate_pexpr_both(
+ prompt->visible.expr, data));
+ defm_list_destruct(calc_default_conditions(sym, data));
+ }
+
+ if (sym_is_nonboolean(sym)) {
+ const char *curr;
+
+ for_all_defaults(sym, p) {
+ if (p == NULL)
+ continue;
+
+ sym_create_nonbool_fexpr(
+ sym, p->expr->left.sym->name, data);
+ }
+ for_all_properties(sym, p, P_RANGE) {
+ if (p == NULL)
+ continue;
+
+ sym_create_nonbool_fexpr(
+ sym, p->expr->left.sym->name, data);
+ sym_create_nonbool_fexpr(
+ sym, p->expr->right.sym->name, data);
+ }
+ curr = sym_get_string_value(sym);
+ if (strcmp(curr, "") != 0)
+ sym_create_nonbool_fexpr(sym, (char *)curr,
+ data);
+ }
+
+ if (sym->type == S_HEX || sym->type == S_INT)
+ sym_add_nonbool_values_from_default_range(sym, data);
+ }
+}
+
+/*
+ * build constraints for boolean symbols
+ */
+static void build_constraints_bool(struct cfdata *data)
+{
+ struct symbol *sym;
+
+ for_all_symbols(sym) {
+ if (!sym_is_boolean(sym))
+ continue;
+
+ /* build tristate constraints */
+ if (sym->type == S_TRISTATE)
+ build_tristate_constraint_clause(sym, data);
+
+ /* build constraints for select statements
+ * need to treat choice symbols separately
+ */
+ if (!KCR_CMP) {
+ add_selects(sym, data);
+ } else {
+ if (sym->rev_dep.expr && !sym_is_choice(sym) &&
+ !sym_is_choice_value(sym))
+ add_selects_kcr(sym, data);
+ }
+
+ /* build constraints for dependencies for booleans */
+ if (sym->dir_dep.expr && !sym_is_choice(sym) &&
+ !sym_is_choice_value(sym)) {
+ if (!KCR_CMP)
+ add_dependencies_bool(sym, data);
+ else
+ add_dependencies_bool_kcr(sym, data);
+ }
+
+ /* build constraints for choice prompts */
+ if (sym_is_choice(sym))
+ add_choice_prompt_cond(sym, data);
+
+ /*
+ * build constraints for dependencies (choice symbols and
+ * options)
+ */
+ if (sym_is_choice(sym) || sym_is_choice_value(sym))
+ add_choice_dependencies(sym, data);
+
+ /* build constraints for the choice groups */
+ if (sym_is_choice(sym))
+ add_choice_constraints(sym, data);
+
+ /* build invisible constraints */
+ add_invisible_constraints(sym, data);
+ }
+}
+
+/*
+ * build the constraints for select-variables
+ * skip non-Booleans, choice symbols/options och symbols without rev_dir
+ */
+static void build_constraints_select(struct cfdata *data)
+{
+ struct symbol *sym;
+
+ for_all_symbols(sym) {
+ struct pexpr *sel_y, *sel_m;
+ struct pexpr *c1, *c2;
+
+ if (KCR_CMP)
+ continue;
+
+ if (!sym_is_boolean(sym))
+ continue;
+
+ if (sym_is_choice(sym) || sym_is_choice_value(sym))
+ continue;
+
+ if (!sym->rev_dep.expr)
+ continue;
+
+ if (sym->list_sel_y == NULL)
+ continue;
+
+ sel_y = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_sel_y),
+ pexpr_alloc_symbol(sym->fexpr_y), data,
+ PEXPR_ARGX);
+ sym_add_constraint(sym, sel_y, data);
+
+ c1 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_sel_y),
+ sym->list_sel_y, data, PEXPR_ARG1);
+ sym_add_constraint(sym, c1, data);
+
+ /* only continue for tristates */
+ if (sym->type == S_BOOLEAN)
+ continue;
+
+ sel_m = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_sel_m),
+ sym_get_fexpr_both(sym, data), data,
+ PEXPR_ARGX);
+ sym_add_constraint(sym, sel_m, data);
+
+ c2 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_sel_m),
+ sym->list_sel_m, data, PEXPR_ARG1);
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(sel_y, sel_m, c1, c2);
+ }
+}
+
+/*
+ * build constraints for non-booleans
+ */
+static void build_constraints_nonbool(struct cfdata *data)
+{
+ struct symbol *sym;
+
+ for_all_symbols(sym) {
+ if (!sym_is_nonboolean(sym))
+ continue;
+
+ /* the symbol must have a value, if there is a prompt */
+ if (sym_has_prompt(sym))
+ sym_add_nonbool_prompt_constraint(sym, data);
+
+ /* build the range constraints for int/hex */
+ if (sym->type == S_HEX || sym->type == S_INT)
+ sym_add_range_constraints(sym, data);
+
+ /* build constraints for dependencies for non-booleans */
+ if (sym->dir_dep.expr)
+ add_dependencies_nonbool(sym, data);
+
+ /* build invisible constraints */
+ add_invisible_constraints(sym, data);
+
+ /* exactly one of the symbols must be true */
+ sym_nonbool_at_least_1(sym, data);
+ sym_nonbool_at_most_1(sym, data);
+ }
+}
+
+/*
+ * enforce tristate constraints
+ */
+static void build_tristate_constraint_clause(struct symbol *sym,
+ struct cfdata *data)
+{
+ struct pexpr *X, *X_m, *modules, *c;
+
+ if (sym->type != S_TRISTATE)
+ return;
+
+ X = pexpr_alloc_symbol(sym->fexpr_y);
+ X_m = pexpr_alloc_symbol(sym->fexpr_m);
+ modules = pexpr_alloc_symbol(modules_sym->fexpr_y);
+
+ /* -X v -X_m */
+ c = pexpr_or(pexpr_not_share(X, data), pexpr_not_share(X_m, data),
+ data, PEXPR_ARGX);
+ sym_add_constraint(sym, c, data);
+
+ /* X_m -> MODULES */
+ if (modules_sym->fexpr_y != NULL) {
+ struct pexpr *c2 = pexpr_implies_share(X_m, modules, data);
+
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(c2);
+ }
+ PEXPR_PUT(X, X_m, modules, c);
+}
+
+/*
+ * build the select constraints
+ * - RDep(X) implies X
+ */
+static void add_selects_kcr(struct symbol *sym, struct cfdata *data)
+{
+ struct pexpr *rdep_y = expr_calculate_pexpr_y(sym->rev_dep.expr, data);
+ struct pexpr *c1 = pexpr_implies(
+ rdep_y, pexpr_alloc_symbol(sym->fexpr_y), data, PEXPR_ARG2);
+
+ struct pexpr *rdep_both =
+ expr_calculate_pexpr_both(sym->rev_dep.expr, data);
+ struct pexpr *c2 = pexpr_implies(
+ rdep_both, sym_get_fexpr_both(sym, data), data, PEXPR_ARG2);
+
+ sym_add_constraint(sym, c1, data);
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(rdep_y, c1, rdep_both, c2);
+}
+
+/*
+ * build the select constraints simplified
+ * - RDep(X) implies X
+ */
+static void add_selects(struct symbol *sym, struct cfdata *data)
+{
+ struct property *p;
+
+ if (!sym_is_boolean(sym))
+ return;
+
+ for_all_properties(sym, p, P_SELECT) {
+ struct symbol *selected = p->expr->left.sym;
+ struct pexpr *cond_y, *cond_both;
+
+ if (selected->type == S_UNKNOWN)
+ continue;
+
+ if (!selected->rev_dep.expr)
+ continue;
+
+ if (p->visible.expr) {
+ cond_y = expr_calculate_pexpr_y(p->visible.expr, data);
+ cond_both = expr_calculate_pexpr_both(p->visible.expr,
+ data);
+ } else {
+ cond_y =
+ pexpr_alloc_symbol(data->constants->const_true);
+ cond_both =
+ pexpr_alloc_symbol(data->constants->const_true);
+ }
+
+ if (selected->type == S_BOOLEAN) {
+ /* imply that symbol is selected to y */
+ struct pexpr *e1 = pexpr_and(
+ cond_both, sym_get_fexpr_both(sym, data), data,
+ PEXPR_ARG2);
+ struct pexpr *c1 = pexpr_implies(
+ e1, pexpr_alloc_symbol(selected->fexpr_sel_y),
+ data, PEXPR_ARG2);
+
+ sym_add_constraint(selected, c1, data);
+
+ if (selected->list_sel_y == NULL)
+ selected->list_sel_y = pexpr_get(e1);
+ else
+ selected->list_sel_y =
+ pexpr_or(selected->list_sel_y, e1, data,
+ PEXPR_ARG1);
+ PEXPR_PUT(e1, c1);
+ }
+
+ if (selected->type == S_TRISTATE) {
+ struct pexpr *e2, *e3, *c2, *c3;
+
+ /* imply that symbol is selected to y */
+ e2 = pexpr_and(cond_y, pexpr_alloc_symbol(sym->fexpr_y),
+ data, PEXPR_ARG2);
+ c2 = pexpr_implies(
+ e2, pexpr_alloc_symbol(selected->fexpr_sel_y),
+ data, PEXPR_ARG2);
+ sym_add_constraint(selected, c2, data);
+
+ if (selected->list_sel_y == NULL)
+ selected->list_sel_y = pexpr_get(e2);
+ else
+ selected->list_sel_y =
+ pexpr_or(selected->list_sel_y, e2,
+ data, PEXPR_ARG1);
+
+ /* imply that symbol is selected to m */
+ e3 = pexpr_and(cond_both, sym_get_fexpr_both(sym, data),
+ data, PEXPR_ARG2);
+ c3 = pexpr_implies(
+ e3, pexpr_alloc_symbol(selected->fexpr_sel_m),
+ data, PEXPR_ARG2);
+ sym_add_constraint(selected, c3, data);
+
+ if (selected->list_sel_m == NULL)
+ selected->list_sel_m = pexpr_get(e3);
+ else
+ selected->list_sel_m =
+ pexpr_or(selected->list_sel_m, e3,
+ data, PEXPR_ARG1);
+ PEXPR_PUT(e2, c2, e3, c3);
+ }
+ PEXPR_PUT(cond_y, cond_both);
+ }
+}
+
+/*
+ * build the dependency constraints for booleans
+ * - X implies Dep(X) or RDep(X)
+ */
+static void add_dependencies_bool(struct symbol *sym, struct cfdata *data)
+{
+ struct pexpr *dep_both;
+ struct pexpr *visible_m;
+ struct pexpr *visible_y;
+ struct pexpr *visible_both;
+ struct property *prompt;
+ struct pexpr *has_prompt;
+ struct pexpr *sel_y;
+
+ if (!sym_is_boolean(sym) || !sym->dir_dep.expr)
+ return;
+
+ prompt = sym_get_prompt(sym);
+ if (!prompt) {
+ visible_m = pexpr_alloc_symbol(data->constants->const_false);
+ visible_y = pexpr_get(visible_m);
+ visible_both = pexpr_get(visible_m);
+ } else if (prompt->expr == NULL) {
+ visible_m = pexpr_alloc_symbol(data->constants->const_true);
+ visible_y = pexpr_get(visible_m);
+ visible_both = pexpr_get(visible_m);
+ } else {
+ visible_m = expr_calculate_pexpr_m(prompt->expr, data);
+ visible_y = expr_calculate_pexpr_y(prompt->expr, data);
+ visible_both = pexpr_or_share(visible_y, visible_m, data);
+ }
+
+ dep_both = expr_calculate_pexpr_both(sym->dir_dep.expr, data);
+
+ sel_y = sym->rev_dep.expr ?
+ pexpr_alloc_symbol(sym->fexpr_sel_y) :
+ pexpr_alloc_symbol(data->constants->const_false);
+ has_prompt = pexpr_get(visible_both);
+ has_prompt = pexpr_and(
+ has_prompt,
+ pexpr_not(pexpr_and_share(sel_y, visible_m, data),
+ data),
+ data, PEXPR_ARGX);
+
+ if (sym->type == S_TRISTATE) {
+ struct pexpr *c1;
+ struct pexpr *c2;
+ struct pexpr *dep_y =
+ expr_calculate_pexpr_y(sym->dir_dep.expr, data);
+ struct pexpr *sel_both = sym_get_fexpr_sel_both(sym, data);
+ struct pexpr *cond_y1;
+ struct pexpr *cond_y2;
+ struct pexpr *cond_y;
+ struct pexpr *cond_m1;
+ struct pexpr *cond_m2;
+ struct pexpr *cond_m;
+
+ cond_y1 = pexpr_implies(pexpr_not_share(has_prompt, data),
+ pexpr_or_share(dep_y, sel_y, data),
+ data, PEXPR_ARGX);
+ cond_y2 = pexpr_implies_share(has_prompt, visible_y, data);
+ cond_y = pexpr_and_share(cond_y1, cond_y2, data);
+ cond_m1 =
+ pexpr_implies(pexpr_not_share(has_prompt, data),
+ pexpr_or_share(dep_both, sel_both, data),
+ data, PEXPR_ARGX);
+ cond_m2 = pexpr_implies(has_prompt,
+ pexpr_not_share(sel_y, data), data,
+ PEXPR_ARG2);
+ cond_m = pexpr_and_share(cond_m1, cond_m2, data);
+ c1 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y), cond_y,
+ data, PEXPR_ARG1);
+ c2 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_m), cond_m,
+ data, PEXPR_ARG1);
+
+ sym_add_constraint(sym, c1, data);
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(c1, c2, dep_y, sel_both, cond_y1,
+ cond_y2, cond_y, cond_m1, cond_m2, cond_m);
+ } else if (sym->type == S_BOOLEAN) {
+ struct pexpr *cond1;
+ struct pexpr *cond2;
+ struct pexpr *c;
+
+ cond1 = pexpr_implies(pexpr_not_share(has_prompt, data),
+ pexpr_or(dep_both,
+ pexpr_alloc_symbol(sym->fexpr_m),
+ data, PEXPR_ARG2),
+ data, PEXPR_ARGX);
+ cond2 = pexpr_implies_share(has_prompt, visible_y, data);
+ c = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_and_share(cond1, cond2, data), data,
+ PEXPR_ARGX);
+
+ sym_add_constraint(sym, c, data);
+ PEXPR_PUT(c, cond1, cond2);
+ }
+ PEXPR_PUT(dep_both, has_prompt, sel_y, visible_y, visible_m,
+ visible_both);
+}
+
+/*
+ * build the dependency constraints for booleans (KCR)
+ * - X implies Dep(X) or RDep(X)
+ */
+static void add_dependencies_bool_kcr(struct symbol *sym, struct cfdata *data)
+{
+ struct pexpr *dep_both, *sel_both;
+
+ if (!sym_is_boolean(sym) || !sym->dir_dep.expr)
+ return;
+
+ dep_both = expr_calculate_pexpr_both(sym->dir_dep.expr, data);
+
+ sel_both = sym->rev_dep.expr ?
+ expr_calculate_pexpr_both(sym->rev_dep.expr, data) :
+ pexpr_alloc_symbol(data->constants->const_false);
+
+ if (sym->type == S_TRISTATE) {
+ struct pexpr *c1;
+ struct pexpr *c2;
+ {
+ struct pexpr *dep_y =
+ expr_calculate_pexpr_y(sym->dir_dep.expr, data);
+ struct pexpr *sel_y =
+ sym->rev_dep.expr ?
+ expr_calculate_pexpr_y(
+ sym->rev_dep.expr, data) :
+ pexpr_alloc_symbol(
+ data->constants->const_false);
+ c1 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_or(dep_y, sel_y,
+ data, PEXPR_ARGX),
+ data, PEXPR_ARGX);
+ }
+ c2 = pexpr_implies(pexpr_alloc_symbol(sym->fexpr_m),
+ pexpr_or_share(dep_both, sel_both,
+ data),
+ data, PEXPR_ARGX);
+
+ sym_add_constraint(sym, c1, data);
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(c1, c2);
+ } else if (sym->type == S_BOOLEAN) {
+ struct pexpr *c = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_or_share(dep_both, sel_both, data), data,
+ PEXPR_ARGX);
+
+ sym_add_constraint(sym, c, data);
+ PEXPR_PUT(c);
+ }
+
+ PEXPR_PUT(dep_both, sel_both);
+}
+
+/*
+ * build the dependency constraints for non-booleans
+ *
+ * sym is not 'n' implies `sym->dir_dep`
+ */
+static void add_dependencies_nonbool(struct symbol *sym, struct cfdata *data)
+{
+ struct pexpr *dep_both;
+ struct pexpr *nb_vals; // "sym is set to some value" / "sym is not 'n'"
+ struct fexpr_node *node;
+ struct pexpr *c;
+ bool first = true;
+
+ if (!sym_is_nonboolean(sym) || !sym->dir_dep.expr || sym->rev_dep.expr)
+ return;
+
+ dep_both = expr_calculate_pexpr_both(sym->dir_dep.expr, data);
+
+ nb_vals = pexpr_alloc_symbol(data->constants->const_false);
+ /* can skip the first non-boolean value, since this is 'n' */
+ CF_LIST_FOR_EACH(node, sym->nb_vals, fexpr) {
+ if (first) {
+ first = false;
+ continue;
+ }
+
+ nb_vals = pexpr_or(nb_vals, pexpr_alloc_symbol(node->elem),
+ data, PEXPR_ARGX);
+ }
+
+ c = pexpr_implies(nb_vals, dep_both, data, PEXPR_ARGX);
+ sym_add_constraint(sym, c, data);
+ pexpr_put(c);
+}
+
+/*
+ * build the constraints for the choice prompt
+ */
+static void add_choice_prompt_cond(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prompt;
+ struct pexpr *promptCondition;
+ struct pexpr *fe_both;
+ struct pexpr *pr_cond;
+ struct pexpr *req_cond;
+
+ if (!sym_is_boolean(sym))
+ return;
+
+ prompt = sym_get_prompt(sym);
+ if (prompt == NULL)
+ return;
+
+ promptCondition =
+ prompt->visible.expr ?
+ expr_calculate_pexpr_both(prompt->visible.expr, data) :
+ pexpr_alloc_symbol(data->constants->const_true);
+ fe_both = sym_get_fexpr_both(sym, data);
+ req_cond = pexpr_implies_share(promptCondition, fe_both, data);
+ sym_add_constraint(sym, req_cond, data);
+ pr_cond = pexpr_implies_share(fe_both, promptCondition, data);
+ sym_add_constraint(sym, pr_cond, data);
+ PEXPR_PUT(promptCondition, fe_both, req_cond, pr_cond);
+}
+
+/*
+ * build constraints for dependencies (choice symbols and options)
+ */
+static void add_choice_dependencies(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prompt;
+ struct expr *to_parse;
+ struct pexpr *dep_both;
+
+ if (!sym_is_choice(sym) || !sym_is_choice_value(sym))
+ return;
+
+ prompt = sym_get_prompt(sym);
+ if (prompt == NULL)
+ return;
+
+ if (sym_is_choice(sym)) {
+ if (!prompt->visible.expr)
+ return;
+ to_parse = prompt->visible.expr;
+ } else {
+ if (!sym->dir_dep.expr)
+ return;
+ to_parse = sym->dir_dep.expr;
+ }
+
+ dep_both = expr_calculate_pexpr_both(to_parse, data);
+
+ if (sym->type == S_TRISTATE) {
+ struct pexpr *dep_y = expr_calculate_pexpr_y(to_parse, data);
+ struct pexpr *c1 =
+ pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y), dep_y,
+ data, PEXPR_ARG1);
+ struct pexpr *c2 =
+ pexpr_implies(pexpr_alloc_symbol(sym->fexpr_m),
+ dep_both, data, PEXPR_ARG1);
+
+ sym_add_constraint_unique(sym, c1, data);
+ sym_add_constraint_unique(sym, c2, data);
+ PEXPR_PUT(dep_y, c1, c2);
+ } else if (sym->type == S_BOOLEAN) {
+ struct pexpr *c =
+ pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y),
+ dep_both, data, PEXPR_ARG1);
+
+ sym_add_constraint_unique(sym, c, data);
+ pexpr_put(c);
+ }
+ pexpr_put(dep_both);
+}
+
+/*
+ * build constraints for the choice groups
+ */
+static void add_choice_constraints(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prompt;
+ struct symbol *choice, *choice2;
+ struct sym_node *node;
+ struct sym_list *items, *promptItems;
+ struct pexpr *c1;
+ struct menu *menu_ptr, *choiceval_menu;
+
+ if (!sym_is_boolean(sym))
+ return;
+
+ prompt = sym_get_prompt(sym);
+ if (prompt == NULL)
+ return;
+
+ /* create list of all choice options */
+ items = CF_LIST_INIT(sym);
+ /* create list of choice options with a prompt */
+ promptItems = CF_LIST_INIT(sym);
+
+ for_all_choices(sym, choiceval_menu, menu_ptr) {
+ choice = choiceval_menu->sym;
+
+ CF_PUSH_BACK(items, choice, sym);
+ if (sym_get_prompt(choice) != NULL)
+ CF_PUSH_BACK(promptItems, choice, sym);
+ }
+
+ /* if the choice is set to yes, at least one child must be set to yes */
+ c1 = NULL;
+ CF_LIST_FOR_EACH(node, promptItems, sym) {
+ choice = node->elem;
+ c1 = list_is_head(node->node.prev, &promptItems->list) ?
+ pexpr_alloc_symbol(choice->fexpr_y) :
+ pexpr_or(c1, pexpr_alloc_symbol(choice->fexpr_y),
+ data, PEXPR_ARGX);
+ }
+ if (c1 != NULL) {
+ struct pexpr *c2 = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_y), c1, data, PEXPR_ARG1);
+
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(c1, c2);
+ }
+
+ /*
+ * every choice option (even those without a prompt) implies the choice
+ */
+ CF_LIST_FOR_EACH(node, items, sym) {
+ choice = node->elem;
+ c1 = pexpr_implies(sym_get_fexpr_both(choice, data),
+ sym_get_fexpr_both(sym, data), data,
+ PEXPR_ARGX);
+ sym_add_constraint(sym, c1, data);
+ pexpr_put(c1);
+ }
+
+ /* choice options can only select mod, if the entire choice is mod */
+ if (sym->type == S_TRISTATE) {
+ CF_LIST_FOR_EACH(node, items, sym) {
+ choice = node->elem;
+ if (choice->type == S_TRISTATE) {
+ c1 = pexpr_implies(
+ pexpr_alloc_symbol(choice->fexpr_m),
+ pexpr_alloc_symbol(sym->fexpr_m), data,
+ PEXPR_ARGX);
+ sym_add_constraint(sym, c1, data);
+ pexpr_put(c1);
+ }
+ }
+ }
+
+ /* tristate options cannot be m, if the choice symbol is boolean */
+ if (sym->type == S_BOOLEAN) {
+ CF_LIST_FOR_EACH(node, items, sym) {
+ choice = node->elem;
+ if (choice->type == S_TRISTATE) {
+ struct pexpr *e = pexpr_not(
+ pexpr_alloc_symbol(choice->fexpr_m),
+ data);
+ sym_add_constraint(sym, e, data);
+ pexpr_put(e);
+ }
+ }
+ }
+
+ /* all choice options are mutually exclusive for yes */
+ CF_LIST_FOR_EACH(node, promptItems, sym) {
+ struct sym_node *node2;
+
+ choice = node->elem;
+ list_for_each_entry_from(node2,
+ &list_next_entry(node, node)->node,
+ &promptItems->list, node) {
+ choice2 = node2->elem;
+ c1 = pexpr_or(
+ pexpr_not(pexpr_alloc_symbol(choice->fexpr_y),
+ data),
+ pexpr_not(pexpr_alloc_symbol(choice2->fexpr_y),
+ data),
+ data, PEXPR_ARGX);
+ sym_add_constraint(sym, c1, data);
+ pexpr_put(c1);
+ }
+ }
+
+ /* if one choice option with a prompt is set to yes,
+ * then no other option may be set to mod
+ */
+ if (sym->type == S_TRISTATE) {
+ CF_LIST_FOR_EACH(node, promptItems, sym) {
+ struct sym_list *tmp;
+ struct sym_node *node2;
+
+ choice = node->elem;
+
+ tmp = CF_LIST_INIT(sym);
+ list_for_each_entry_from(
+ node2, &list_next_entry(node, node)->node,
+ &promptItems->list, node) {
+ choice2 = node2->elem;
+ if (choice2->type == S_TRISTATE)
+ CF_PUSH_BACK(tmp, choice2, sym);
+ }
+ if (list_empty(&tmp->list))
+ continue;
+
+ CF_LIST_FOR_EACH(node2, tmp, sym) {
+ struct pexpr *choice2_mod =
+ pexpr_alloc_symbol(choice2->fexpr_m);
+
+ choice2 = node2->elem;
+ if (list_is_first(&node2->node, &tmp->list))
+ c1 = pexpr_not_share(choice2_mod, data);
+ else
+ c1 = pexpr_and(
+ c1,
+ pexpr_not_share(choice2_mod,
+ data),
+ data, PEXPR_ARGX);
+
+ PEXPR_PUT(choice2_mod);
+ }
+ c1 = pexpr_implies(pexpr_alloc_symbol(choice->fexpr_y),
+ c1, data, PEXPR_ARGX);
+ sym_add_constraint(sym, c1, data);
+ pexpr_put(c1);
+ }
+ }
+ CF_LIST_FREE(promptItems, sym);
+ CF_LIST_FREE(items, sym);
+}
+
+/*
+ * build the constraints for invisible options such as defaults
+ */
+static void add_invisible_constraints(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prompt = sym_get_prompt(sym);
+ struct pexpr *promptCondition_both, *promptCondition_yes, *noPromptCond;
+ struct pexpr *npc;
+ struct defm_list *defaults;
+ struct pexpr *default_y, *default_m, *default_both;
+
+ /* no constraints for the prompt, nothing to do here */
+ if (prompt != NULL && !prompt->visible.expr)
+ return;
+
+ if (prompt == NULL) {
+ promptCondition_both =
+ pexpr_alloc_symbol(data->constants->const_false);
+ promptCondition_yes =
+ pexpr_alloc_symbol(data->constants->const_false);
+ noPromptCond = pexpr_alloc_symbol(data->constants->const_true);
+ } else {
+ struct property *p;
+
+ promptCondition_both =
+ pexpr_alloc_symbol(data->constants->const_false);
+ promptCondition_yes =
+ pexpr_alloc_symbol(data->constants->const_false);
+
+ /* some symbols have multiple prompts */
+ for_all_prompts(sym, p) {
+ promptCondition_both =
+ pexpr_or(promptCondition_both,
+ expr_calculate_pexpr_both(
+ p->visible.expr, data),
+ data, PEXPR_ARGX);
+ promptCondition_yes = pexpr_or(
+ promptCondition_yes,
+ expr_calculate_pexpr_y(p->visible.expr, data),
+ data, PEXPR_ARGX);
+ }
+ noPromptCond = pexpr_not_share(promptCondition_both, data);
+ }
+
+ if (NPC_OPTIMISATION) {
+ struct fexpr *npc_fe =
+ fexpr_create(data->sat_variable_nr++, FE_NPC, "");
+
+ if (sym_is_choice(sym))
+ str_append(&npc_fe->name, "Choice_");
+
+ str_append(&npc_fe->name, sym_get_name(sym));
+ str_append(&npc_fe->name, "_NPC");
+ sym->noPromptCond = npc_fe;
+ fexpr_add_to_satmap(npc_fe, data);
+
+ npc = pexpr_alloc_symbol(npc_fe);
+
+ if (!sym_is_choice_value(sym) && !sym_is_choice(sym)) {
+ struct pexpr *c =
+ pexpr_implies_share(noPromptCond, npc, data);
+ sym_add_constraint(sym, c, data);
+ pexpr_put(c);
+ }
+ } else {
+ npc = pexpr_get(noPromptCond);
+ }
+
+ defaults = calc_default_conditions(sym, data);
+ default_y = get_default_y(defaults, data);
+ default_m = get_default_m(defaults, data);
+ default_both = pexpr_or_share(default_y, default_m, data);
+
+ /*
+ * tristate elements are only selectable as yes, if they are visible as
+ * yes
+ */
+ if (sym->type == S_TRISTATE) {
+ struct pexpr *e1 = pexpr_implies(
+ promptCondition_both,
+ pexpr_implies(pexpr_alloc_symbol(sym->fexpr_y),
+ promptCondition_yes, data,
+ PEXPR_ARG1),
+ data, PEXPR_ARG2);
+
+ sym_add_constraint(sym, e1, data);
+ pexpr_put(e1);
+ }
+
+ /* if invisible and off by default, then a symbol can only be
+ * deactivated by its reverse dependencies
+ */
+ if (sym->type == S_TRISTATE) {
+ struct pexpr *sel_y, *sel_m, *sel_both;
+ struct pexpr *c1, *c2, *c3;
+ struct pexpr *d1, *d2, *d3;
+ struct pexpr *e1, *e2, *e3;
+
+ if (sym->fexpr_sel_y != NULL) {
+ sel_y = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_alloc_symbol(sym->fexpr_sel_y), data,
+ PEXPR_ARGX);
+ sel_m = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_m),
+ pexpr_alloc_symbol(sym->fexpr_sel_m), data,
+ PEXPR_ARGX);
+ sel_both = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_or(pexpr_alloc_symbol(sym->fexpr_sel_m),
+ pexpr_alloc_symbol(sym->fexpr_sel_y),
+ data, PEXPR_ARGX),
+ data, PEXPR_ARGX);
+ } else {
+ sel_y = pexpr_not(pexpr_alloc_symbol(sym->fexpr_y),
+ data);
+ sel_m = pexpr_not(pexpr_alloc_symbol(sym->fexpr_m),
+ data);
+ sel_both = pexpr_get(sel_y);
+ }
+
+ c1 = pexpr_implies(pexpr_not_share(default_y, data), sel_y,
+ data, PEXPR_ARG1);
+ c2 = pexpr_implies(pexpr_alloc_symbol(modules_sym->fexpr_y), c1,
+ data, PEXPR_ARG1);
+ c3 = pexpr_implies_share(npc, c2, data);
+ sym_add_constraint(sym, c3, data);
+
+ d1 = pexpr_implies(pexpr_not_share(default_m, data), sel_m,
+ data, PEXPR_ARG1);
+ d2 = pexpr_implies(pexpr_alloc_symbol(modules_sym->fexpr_y), d1,
+ data, PEXPR_ARG1);
+ d3 = pexpr_implies_share(npc, d2, data);
+ sym_add_constraint(sym, d3, data);
+
+ e1 = pexpr_implies(pexpr_not_share(default_both, data),
+ sel_both, data, PEXPR_ARG1);
+ e2 = pexpr_implies(
+ pexpr_not(pexpr_alloc_symbol(modules_sym->fexpr_y),
+ data),
+ e1, data, PEXPR_ARG1);
+ e3 = pexpr_implies_share(npc, e2, data);
+ sym_add_constraint(sym, e3, data);
+ PEXPR_PUT(sel_y, sel_m, sel_both, c1, c2, c3, d1, d2, d3, e1,
+ e2, e3);
+ } else if (sym->type == S_BOOLEAN) {
+ struct pexpr *sel_y;
+ struct pexpr *e1, *e2;
+
+ if (sym->fexpr_sel_y != NULL)
+ sel_y = pexpr_implies(
+ pexpr_alloc_symbol(sym->fexpr_y),
+ pexpr_alloc_symbol(sym->fexpr_sel_y), data,
+ PEXPR_ARGX);
+ else
+ sel_y = pexpr_not(pexpr_alloc_symbol(sym->fexpr_y),
+ data);
+
+ e1 = pexpr_implies(pexpr_not_share(default_both, data),
+ sel_y, data, PEXPR_ARG1);
+ e2 = pexpr_implies_share(npc, e1, data);
+
+ sym_add_constraint_unique(sym, e2, data);
+ PEXPR_PUT(sel_y, e1, e2);
+ } else {
+ /* if non-boolean is invisible and no default's condition is
+ * fulfilled, then the symbol is not set
+ */
+ struct pexpr *default_any = get_default_any(sym, data);
+ struct pexpr *e1 =
+ pexpr_alloc_symbol(data->constants->const_true);
+ struct pexpr *e2, *e3;
+ struct fexpr_node *node;
+ bool first = true;
+
+ /* e1 = "sym is not set" */
+ CF_LIST_FOR_EACH(node, sym->nb_vals, fexpr) {
+ if (first) {
+ first = false;
+ continue;
+ }
+ e1 = pexpr_and(e1,
+ pexpr_not(pexpr_alloc_symbol(node->elem),
+ data),
+ data, PEXPR_ARGX);
+ }
+
+ e2 = pexpr_implies(pexpr_not_share(default_any, data), e1,
+ data, PEXPR_ARG1);
+ e3 = pexpr_implies_share(npc, e2, data);
+
+ sym_add_constraint(sym, e3, data);
+ PEXPR_PUT(default_any, e1, e2, e3);
+ }
+
+ /* if invisible and on by default, then a symbol can only be deactivated
+ * by its dependencies
+ */
+ if (list_empty(&defaults->list)) {
+ // nothing to do
+ } else if (sym->type == S_TRISTATE) {
+ struct pexpr *e1;
+ struct pexpr *e2;
+
+ e1 = pexpr_implies(
+ npc,
+ pexpr_implies(default_y,
+ pexpr_alloc_symbol(sym->fexpr_y), data,
+ PEXPR_ARG2),
+ data, PEXPR_ARG2);
+ sym_add_constraint(sym, e1, data);
+
+ e2 = pexpr_implies(
+ npc,
+ pexpr_implies(default_m,
+ sym_get_fexpr_both(sym, data),
+ data, PEXPR_ARG2),
+ data, PEXPR_ARG2);
+ sym_add_constraint(sym, e2, data);
+ PEXPR_PUT(e1, e2);
+ } else if (sym->type == S_BOOLEAN) {
+ struct pexpr *c;
+ struct pexpr *c2;
+
+ c = pexpr_implies(default_both,
+ pexpr_alloc_symbol(sym->fexpr_y), data,
+ PEXPR_ARG2);
+
+ // TODO tristate choice hack
+
+ c2 = pexpr_implies_share(npc, c, data);
+ sym_add_constraint(sym, c2, data);
+ PEXPR_PUT(c, c2);
+ } else {
+ /* if non-boolean invisible, then it assumes the correct
+ * default (if any).
+ */
+ struct defm_node *node;
+ struct pexpr *cond, *c;
+ struct fexpr *f;
+
+ CF_LIST_FOR_EACH(node, defaults, defm) {
+ f = node->elem->val;
+ cond = node->elem->e;
+ c = pexpr_implies(npc,
+ pexpr_implies(cond,
+ pexpr_alloc_symbol(f),
+ data, PEXPR_ARG2),
+ data, PEXPR_ARG2);
+ sym_add_constraint(sym, c, data);
+ pexpr_put(c);
+ }
+ }
+
+ PEXPR_PUT(promptCondition_yes, promptCondition_both, noPromptCond, npc,
+ default_y, default_m, default_both);
+ defm_list_destruct(defaults);
+}
+
+/*
+ * add the known values from the default and range properties
+ */
+static void sym_add_nonbool_values_from_default_range(struct symbol *sym,
+ struct cfdata *data)
+{
+ struct property *p;
+
+ for_all_defaults(sym, p) {
+ if (p == NULL)
+ continue;
+
+ /* add the value to known values, if it doesn't exist yet */
+ sym_create_nonbool_fexpr(sym, p->expr->left.sym->name, data);
+ }
+
+ for_all_properties(sym, p, P_RANGE) {
+ if (p == NULL)
+ continue;
+
+ /* add the values to known values, if they don't exist yet */
+ sym_create_nonbool_fexpr(sym, p->expr->left.sym->name, data);
+ sym_create_nonbool_fexpr(sym, p->expr->right.sym->name, data);
+ }
+}
+
+/*
+ * build the range constraints for int/hex:
+ * For each range and each value in `sym->nb_vals` that's not in the range:
+ * If the range's condition is fulfilled, then sym can't have this value.
+ */
+static void sym_add_range_constraints(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prop;
+ struct pexpr *prevs;
+ struct pexpr *propCond;
+ struct pexpr_list *prevCond; // list of all conditions of the ranges
+ // from the previous iterations
+
+ prevCond = CF_LIST_INIT(pexpr);
+
+ for_all_properties(sym, prop, P_RANGE) {
+ int base;
+ long long range_min, range_max, tmp;
+ struct fexpr_node *node;
+ bool first;
+
+ if (prop == NULL)
+ continue;
+
+ prevs = pexpr_alloc_symbol(data->constants->const_true);
+ propCond = prop_get_condition(prop, data);
+
+ // construct prevs as "none of the previous ranges' conditions
+ // were fulfilled but this range's condition is"
+ if (list_empty(&prevCond->list)) {
+ pexpr_put(prevs);
+ prevs = pexpr_get(propCond);
+;
+ } else {
+ struct pexpr_node *node;
+
+ CF_LIST_FOR_EACH(node, prevCond, pexpr)
+ prevs = pexpr_and(pexpr_not_share(node->elem,
+ data),
+ prevs, data, PEXPR_ARGX);
+
+ prevs = pexpr_and(propCond, prevs, data,
+ PEXPR_ARG2);
+ }
+ CF_PUSH_BACK(prevCond, pexpr_get(propCond), pexpr);
+
+ switch (sym->type) {
+ case S_INT:
+ base = 10;
+ break;
+ case S_HEX:
+ base = 16;
+ break;
+ default:
+ return;
+ }
+
+ range_min = sym_get_range_val(prop->expr->left.sym, base);
+ range_max = sym_get_range_val(prop->expr->right.sym, base);
+
+ first = true;
+ /* can skip the first non-boolean value, since this is 'n' */
+ CF_LIST_FOR_EACH(node, sym->nb_vals, fexpr) {
+ struct pexpr *not_nb_val;
+ struct pexpr *c;
+
+ if (first) {
+ first = false;
+ continue;
+ }
+
+ tmp = strtoll(str_get(&node->elem->nb_val), NULL, base);
+
+ /* known value is in range, nothing to do here */
+ if (tmp >= range_min && tmp <= range_max)
+ continue;
+
+ not_nb_val =
+ pexpr_not(pexpr_alloc_symbol(node->elem), data);
+ c = pexpr_implies_share(prevs, not_nb_val, data);
+ sym_add_constraint(sym, c, data);
+ PEXPR_PUT(not_nb_val, c);
+ }
+ PEXPR_PUT(prevs, propCond);
+ }
+
+ pexpr_list_free_put(prevCond);
+
+}
+
+/*
+ * at least 1 of the known values for a non-boolean symbol must be true
+ */
+static void sym_nonbool_at_least_1(struct symbol *sym, struct cfdata *data)
+{
+ struct pexpr *e;
+ struct fexpr_node *node;
+
+ if (!sym_is_nonboolean(sym))
+ return;
+
+ e = pexpr_alloc_symbol(data->constants->const_false);
+ CF_LIST_FOR_EACH(node, sym->nb_vals, fexpr)
+ e = pexpr_or(e, pexpr_alloc_symbol(node->elem), data,
+ PEXPR_ARGX);
+
+ sym_add_constraint(sym, e, data);
+ pexpr_put(e);
+}
+
+/*
+ * at most 1 of the known values for a non-boolean symbol can be true
+ */
+static void sym_nonbool_at_most_1(struct symbol *sym, struct cfdata *data)
+{
+ struct fexpr_node *node1;
+
+ if (!sym_is_nonboolean(sym))
+ return;
+
+ /* iterate over all subsets of sym->nb_vals of size 2 */
+ CF_LIST_FOR_EACH(node1, sym->nb_vals, fexpr) {
+ struct pexpr *e1 = pexpr_alloc_symbol(node1->elem);
+ struct fexpr_node *node2;
+
+ list_for_each_entry_reverse(node2, &sym->nb_vals->list, node) {
+ struct pexpr *e2, *e;
+
+ if (node2 == node1)
+ break;
+ e2 = pexpr_alloc_symbol(node2->elem);
+ e = pexpr_or(pexpr_not_share(e1, data),
+ pexpr_not_share(e2, data),
+ data, PEXPR_ARGX);
+
+ sym_add_constraint(sym, e, data);
+ PEXPR_PUT(e, e2);
+ }
+ pexpr_put(e1);
+ }
+}
+
+/*
+ * a visible prompt for a non-boolean implies a value for the symbol
+ */
+static void sym_add_nonbool_prompt_constraint(struct symbol *sym,
+ struct cfdata *data)
+{
+ struct property *prompt;
+ struct pexpr *promptCondition;
+ struct pexpr *n;
+ struct pexpr *c = NULL;
+
+ prompt = sym_get_prompt(sym);
+ if (prompt == NULL)
+ return;
+
+ promptCondition = prop_get_condition(prompt, data);
+ n = pexpr_alloc_symbol(sym_get_nonbool_fexpr(sym, "n"));
+
+ if (n->type != PE_SYMBOL || n->left.fexpr == NULL)
+ goto cleanup;
+
+ c = pexpr_implies(promptCondition, pexpr_not_share(n, data), data,
+ PEXPR_ARG2);
+
+ sym_add_constraint(sym, c, data);
+
+cleanup:
+ PEXPR_PUT(n, promptCondition, c);
+}
+
+static struct default_map *create_default_map_entry(struct fexpr *val,
+ struct pexpr *e)
+{
+ struct default_map *map = malloc(sizeof(struct default_map));
+
+ pexpr_get(e);
+ map->val = val;
+ map->e = e;
+
+ return map;
+}
+
+/**
+ * findDefaultEntry()
+ * @val: Value that the entry must have
+ * @defaults: List of defaults to search in
+ * @constants: To get ``constants->const_false`` from
+ *
+ * Finds an entry in @defaults whose &default_map.val attribute is the same
+ * pointer as the @val argument.
+ *
+ * Return: The condition &default_map.e of the found entry, or
+ * ``pexf(constants->const_false)`` if none was found. To be pexpr_put() by the
+ * caller.
+ */
+static struct pexpr *findDefaultEntry(struct fexpr *val,
+ struct defm_list *defaults,
+ struct constants *constants)
+{
+ struct defm_node *node;
+
+ CF_LIST_FOR_EACH(node, defaults, defm) {
+ if (val == node->elem->val) {
+ pexpr_get(node->elem->e);
+ return node->elem->e;
+ }
+ }
+
+ return pexpr_alloc_symbol(constants->const_false);
+}
+
+/*
+ * accumulated during execution of add_defaults(), a disjunction of the
+ * conditions for all default props of a symbol
+ */
+static struct pexpr *covered;
+
+static bool is_tri_as_num(struct symbol *sym)
+{
+ if (!sym->name)
+ return false;
+
+ return !strcmp(sym->name, "0")
+ || !strcmp(sym->name, "1")
+ || !strcmp(sym->name, "2");
+}
+
+/**
+ * add_to_default_map() - Add to or update an entry in a default list
+ * @entry: Will be consumed by this function, i.e. the caller should and need
+ * only access @entry via @defaults.
+ */
+static void add_to_default_map(struct defm_list *defaults,
+ struct default_map *entry, struct symbol *sym)
+{
+ /* as this is a map, the entry must be replaced if it already exists */
+ if (sym_is_boolean(sym)) {
+ struct default_map *map;
+ struct defm_node *node;
+
+ CF_LIST_FOR_EACH(node, defaults, defm) {
+ map = node->elem;
+ if (map->val->sym == entry->val->sym) {
+ pexpr_put(map->e);
+ map->e = entry->e;
+ free(entry);
+ return;
+ }
+ }
+ CF_PUSH_BACK(defaults, entry, defm);
+ } else {
+ struct default_map *map;
+ struct defm_node *node;
+
+ CF_LIST_FOR_EACH(node, defaults, defm) {
+ map = node->elem;
+ if (map->val->satval == entry->val->satval) {
+ pexpr_put(map->e);
+ map->e = entry->e;
+ free(entry);
+ return;
+ }
+ }
+ CF_PUSH_BACK(defaults, entry, defm);
+ }
+}
+
+/**
+ * updateDefaultList() - Update a default list with a new value-condition pair
+ * @val: The value whose condition will be updated
+ * @newCond: The condition of the default prop. Does not include the condition
+ * that the earlier default's conditions are not fulfilled.
+ * @result: the default list
+ * @sym: the symbol that the defaults belong to
+ *
+ * Update the condition that @val will be used for @sym by considering the next
+ * default property, whose condition is given by @newCond.
+ */
+static void updateDefaultList(struct fexpr *val, struct pexpr *newCond,
+ struct defm_list *result, struct symbol *sym,
+ struct cfdata *data)
+{
+ // The current condition of @val deduced from the previous default props
+ struct pexpr *prevCond = findDefaultEntry(val, result, data->constants);
+ // New combined condition for @val
+ struct pexpr *condUseVal =
+ pexpr_or(prevCond,
+ pexpr_and(newCond, pexpr_not_share(covered, data),
+ data, PEXPR_ARG2),
+ data, PEXPR_ARG2);
+ add_to_default_map(result, create_default_map_entry(val, condUseVal),
+ sym);
+ covered = pexpr_or(covered, newCond, data, PEXPR_ARG1);
+ PEXPR_PUT(prevCond, condUseVal);
+}
+
+/**
+ * add_defaults() - Generate list of default values and their conditions
+ * @defaults: List of the default properties
+ * @ctx: Additional condition that needs to be fulfilled for any default. May be
+ * NULL.
+ * @result: List that will be filled
+ * @sym: Symbol that the defaults belong to
+ *
+ * Creates a map from values that @sym can assume to the conditions under which
+ * they will be assumed. Without @ctx, this will only consider the conditions
+ * directly associated with the defaults, e.g. sym->dir_dep would not be
+ * considered.
+ *
+ * As a side effect, the &symbol->nb_vals of @sym will be added for
+ * all default values (as well as the @symbol->nb_vals of other symbols @sym has
+ * as default (recursively)).
+ */
+static void add_defaults(struct prop_list *defaults, struct expr *ctx,
+ struct defm_list *result, struct symbol *sym,
+ struct cfdata *data)
+{
+ struct prop_node *node;
+ struct property *p;
+ struct expr *expr;
+
+ CF_LIST_FOR_EACH(node, defaults, prop) {
+ p = node->elem;
+ /* calculate expr as whether the default's condition (and the
+ * one inherited from ctx) is fulfilled
+ */
+ if (p->visible.expr) {
+ if (ctx == NULL)
+ expr = p->visible.expr;
+ else
+ expr = expr_alloc_and(p->visible.expr, ctx);
+ } else {
+ if (ctx == NULL)
+ expr = expr_alloc_symbol(&symbol_yes);
+ else
+ expr = expr_alloc_and(
+ expr_alloc_symbol(&symbol_yes), ctx);
+ }
+
+ /* if tristate and def.value = y */
+ if (p->expr->type == E_SYMBOL && sym->type == S_TRISTATE &&
+ p->expr->left.sym == &symbol_yes) {
+ struct pexpr *expr_y =
+ expr_calculate_pexpr_y(expr, data);
+ struct pexpr *expr_m =
+ expr_calculate_pexpr_m(expr, data);
+
+ updateDefaultList(data->constants->symbol_yes_fexpr,
+ expr_y, result, sym, data);
+ updateDefaultList(data->constants->symbol_mod_fexpr,
+ expr_m, result, sym, data);
+ PEXPR_PUT(expr_y, expr_m);
+ }
+ /* if def.value = n/m/y */
+ else if (p->expr->type == E_SYMBOL &&
+ sym_is_tristate_constant(p->expr->left.sym) &&
+ sym_is_boolean(sym)) {
+ struct fexpr *s;
+ struct pexpr *expr_both =
+ expr_calculate_pexpr_both(expr, data);
+
+ if (p->expr->left.sym == &symbol_yes)
+ s = data->constants->symbol_yes_fexpr;
+ else if (p->expr->left.sym == &symbol_mod)
+ s = data->constants->symbol_mod_fexpr;
+ else
+ s = data->constants->symbol_no_fexpr;
+
+ updateDefaultList(s, expr_both, result, sym, data);
+ pexpr_put(expr_both);
+ }
+ /* if def.value = n/m/y, but written as 0/1/2 for a boolean */
+ else if (sym_is_boolean(sym) && p->expr->type == E_SYMBOL &&
+ p->expr->left.sym->type == S_UNKNOWN &&
+ is_tri_as_num(p->expr->left.sym)) {
+ struct fexpr *s;
+ struct pexpr *expr_both =
+ expr_calculate_pexpr_both(expr, data);
+
+ if (!strcmp(p->expr->left.sym->name, "0"))
+ s = data->constants->symbol_no_fexpr;
+ else if (!strcmp(p->expr->left.sym->name, "1"))
+ s = data->constants->symbol_mod_fexpr;
+ else
+ s = data->constants->symbol_yes_fexpr;
+
+ updateDefaultList(s, expr_both, result, sym, data);
+ pexpr_put(expr_both);
+ }
+ /* if def.value = non-boolean constant */
+ else if (expr_is_nonbool_constant(p->expr)) {
+ struct fexpr *s = sym_get_or_create_nonbool_fexpr(
+ sym, p->expr->left.sym->name, data);
+ struct pexpr *expr_both =
+ expr_calculate_pexpr_both(expr, data);
+
+ updateDefaultList(s, expr_both, result, sym, data);
+ pexpr_put(expr_both);
+ }
+ /* any expression which evaluates to n/m/y for a tristate */
+ else if (sym->type == S_TRISTATE) {
+ struct expr *e_tmp = expr_alloc_and(p->expr, expr);
+ struct pexpr *expr_y =
+ expr_calculate_pexpr_y(e_tmp, data);
+ struct pexpr *expr_m =
+ expr_calculate_pexpr_m(e_tmp, data);
+
+ updateDefaultList(data->constants->symbol_yes_fexpr,
+ expr_y, result, sym, data);
+ updateDefaultList(data->constants->symbol_mod_fexpr,
+ expr_m, result, sym, data);
+ PEXPR_PUT(expr_y, expr_m);
+ }
+ /* if non-boolean && def.value = non-boolean symbol */
+ else if (p->expr->type == E_SYMBOL && sym_is_nonboolean(sym) &&
+ sym_is_nonboolean(p->expr->left.sym)) {
+ CF_DEF_LIST(nb_sym_defaults, prop);
+ struct property *p_tmp;
+
+ /* Add defaults of other symbol as possible defaults for
+ * this symbol
+ */
+ for_all_defaults(p->expr->left.sym, p_tmp)
+ CF_PUSH_BACK(nb_sym_defaults, p_tmp, prop);
+
+ add_defaults(nb_sym_defaults, expr, result, sym, data);
+ CF_LIST_FREE(nb_sym_defaults, prop);
+ }
+ /* any expression which evaluates to n/m/y */
+ else {
+ struct expr *e_tmp = expr_alloc_and(p->expr, expr);
+ struct pexpr *expr_both =
+ expr_calculate_pexpr_both(e_tmp, data);
+
+ updateDefaultList(data->constants->symbol_yes_fexpr,
+ expr_both, result, sym, data);
+
+ pexpr_put(expr_both);
+ }
+ }
+}
+
+/**
+ * get_defaults() - Generate list of default values and their conditions
+ * @sym: Symbol whose defaults we want to look at
+ *
+ * Creates a map from values that @sym can assume to the conditions under which
+ * they will be assumed. This will only consider the conditions
+ * directly associated with the defaults, e.g. sym->dir_dep would not be
+ * considered.
+ *
+ * As a side effect, the &symbol->nb_vals of @sym will be added for
+ * all default values (as well as the @symbol->nb_vals of other symbols @sym has
+ * as default (recursively)).
+ */
+static struct defm_list *calc_default_conditions(struct symbol *sym,
+ struct cfdata *data)
+{
+ CF_DEF_LIST(result, defm);
+ struct prop_list *defaults; /* list of default props of sym */
+ struct property *p;
+
+ covered = pexpr_alloc_symbol(data->constants->const_false);
+
+ defaults = CF_LIST_INIT(prop);
+ for_all_defaults(sym, p)
+ CF_PUSH_BACK(defaults, p, prop);
+
+ add_defaults(defaults, NULL, result, sym, data);
+ CF_LIST_FREE(defaults, prop);
+ pexpr_put(covered);
+
+ return result;
+}
+
+/*
+ * return the condition for "y", False if it doesn't exist
+ */
+static struct pexpr *get_default_y(struct defm_list *list, struct cfdata *data)
+{
+ struct default_map *entry;
+ struct defm_node *node;
+
+ CF_LIST_FOR_EACH(node, list, defm) {
+ entry = node->elem;
+ if (entry->val->type == FE_SYMBOL &&
+ entry->val->sym == &symbol_yes) {
+ pexpr_get(entry->e);
+ return entry->e;
+ }
+ }
+
+ return pexpr_alloc_symbol(data->constants->const_false);
+}
+
+/*
+ * return the condition for "m", False if it doesn't exist
+ */
+static struct pexpr *get_default_m(struct defm_list *list, struct cfdata *data)
+{
+ struct default_map *entry;
+ struct defm_node *node;
+
+ CF_LIST_FOR_EACH(node, list, defm) {
+ entry = node->elem;
+ if (entry->val->type == FE_SYMBOL &&
+ entry->val->sym == &symbol_mod) {
+ pexpr_get(entry->e);
+ return entry->e;
+ }
+ }
+
+ return pexpr_alloc_symbol(data->constants->const_false);
+}
+
+/*
+ * return the constraint when _some_ default value will be applied
+ */
+static struct pexpr *get_default_any(struct symbol *sym, struct cfdata *data)
+{
+ struct property *prop;
+ struct expr *e;
+ struct pexpr *p;
+
+ if (!sym_is_nonboolean(sym))
+ return NULL;
+
+ p = pexpr_alloc_symbol(data->constants->const_false);
+ for_all_defaults(sym, prop) {
+ if (prop->visible.expr)
+ e = prop->visible.expr;
+ else
+ e = expr_alloc_symbol(&symbol_yes);
+
+ if (expr_can_evaluate_to_mod(e))
+ p = pexpr_or(p, expr_calculate_pexpr_both(e, data),
+ data, PEXPR_ARGX);
+
+ p = pexpr_or(p, expr_calculate_pexpr_y(e, data), data,
+ PEXPR_ARGX);
+ }
+
+ return p;
+}
+
+/*
+ * get the value for the range
+ */
+static long sym_get_range_val(struct symbol *sym, int base)
+{
+ sym_calc_value(sym);
+ switch (sym->type) {
+ case S_INT:
+ base = 10;
+ break;
+ case S_HEX:
+ base = 16;
+ break;
+ default:
+ break;
+ }
+ return strtol(sym->curr.val, NULL, base);
+}
+
+/*
+ * count the number of all constraints
+ */
+unsigned int count_constraints(void)
+{
+ unsigned int c = 0;
+ struct symbol *sym;
+
+ for_all_symbols(sym) {
+ if (sym->type == S_UNKNOWN)
+ continue;
+
+ c += list_size(&sym->constraints->list);
+ }
+
+ return c;
+}
+
+/*
+ * add a constraint for a symbol
+ */
+void sym_add_constraint(struct symbol *sym, struct pexpr *constraint,
+ struct cfdata *data)
+{
+ if (!constraint)
+ return;
+
+ /* no need to add that */
+ if (constraint->type == PE_SYMBOL &&
+ constraint->left.fexpr == data->constants->const_true)
+ return;
+
+ /* this should never happen */
+ if (constraint->type == PE_SYMBOL &&
+ constraint->left.fexpr == data->constants->const_false)
+ perror("Adding const_false.");
+
+ CF_PUSH_BACK(sym->constraints, pexpr_get(constraint), pexpr);
+
+ if (!pexpr_is_nnf(constraint))
+ pexpr_print("Not NNF:", constraint, -1);
+}
+
+/*
+ * add a constraint for a symbol, but check for duplicate constraints
+ */
+void sym_add_constraint_unique(struct symbol *sym, struct pexpr *constraint,
+ struct cfdata *data)
+{
+ struct pexpr_node *node;
+
+ if (!constraint)
+ return;
+
+ /* no need to add that */
+ if (constraint->type == PE_SYMBOL &&
+ constraint->left.fexpr == data->constants->const_true)
+ return;
+
+ /* this should never happen */
+ if (constraint->type == PE_SYMBOL &&
+ constraint->left.fexpr == data->constants->const_false)
+ perror("Adding const_false.");
+
+ /* check the constraints for the same symbol */
+ CF_LIST_FOR_EACH(node, sym->constraints, pexpr)
+ if (pexpr_test_eq(constraint, node->elem, data))
+ return;
+
+ CF_PUSH_BACK(sym->constraints, pexpr_get(constraint), pexpr);
+
+ if (!pexpr_is_nnf(constraint))
+ pexpr_print("Not NNF:", constraint, -1);
+}
diff --git a/scripts/kconfig/cf_constraints.h b/scripts/kconfig/cf_constraints.h
new file mode 100644
index 000000000000..a68dc9ba4f03
--- /dev/null
+++ b/scripts/kconfig/cf_constraints.h
@@ -0,0 +1,24 @@
+/* SPDX-License-Identifier: GPL-2.0 */
+/*
+ * Copyright (C) 2023 Patrick Franz <deltaone@debian.org>
+ */
+
+#ifndef CF_CONSTRAINTS_H
+#define CF_CONSTRAINTS_H
+
+#include "cf_defs.h"
+#include "expr.h"
+
+/* build the constraints for each symbol */
+void build_constraints(struct cfdata *data);
+
+/* count the number of all constraints */
+unsigned int count_constraints(void);
+
+/* add a constraint for a symbol */
+void sym_add_constraint(struct symbol *sym, struct pexpr *constraint, struct cfdata *data);
+
+/* add a constraint for a symbol, but check for duplicate constraints */
+void sym_add_constraint_unique(struct symbol *sym, struct pexpr *constraint, struct cfdata *data);
+
+#endif
--
2.39.5
© 2016 - 2024 Red Hat, Inc.