| /* |
| * Copyright (C) 2002 Roman Zippel <zippel@linux-m68k.org> |
| * Released under the terms of the GNU GPL v2.0. |
| */ |
| |
| #include <stdio.h> |
| #include <stdlib.h> |
| #include <string.h> |
| |
| #define LKC_DIRECT_LINK |
| #include "lkc.h" |
| |
| #define DEBUG_EXPR 0 |
| |
| struct expr *expr_alloc_symbol(struct symbol *sym) |
| { |
| struct expr *e = malloc(sizeof(*e)); |
| memset(e, 0, sizeof(*e)); |
| e->type = E_SYMBOL; |
| e->left.sym = sym; |
| return e; |
| } |
| |
| struct expr *expr_alloc_one(enum expr_type type, struct expr *ce) |
| { |
| struct expr *e = malloc(sizeof(*e)); |
| memset(e, 0, sizeof(*e)); |
| e->type = type; |
| e->left.expr = ce; |
| return e; |
| } |
| |
| struct expr *expr_alloc_two(enum expr_type type, struct expr *e1, struct expr *e2) |
| { |
| struct expr *e = malloc(sizeof(*e)); |
| memset(e, 0, sizeof(*e)); |
| e->type = type; |
| e->left.expr = e1; |
| e->right.expr = e2; |
| return e; |
| } |
| |
| struct expr *expr_alloc_comp(enum expr_type type, struct symbol *s1, struct symbol *s2) |
| { |
| struct expr *e = malloc(sizeof(*e)); |
| memset(e, 0, sizeof(*e)); |
| e->type = type; |
| e->left.sym = s1; |
| e->right.sym = s2; |
| return e; |
| } |
| |
| struct expr *expr_alloc_and(struct expr *e1, struct expr *e2) |
| { |
| if (!e1) |
| return e2; |
| return e2 ? expr_alloc_two(E_AND, e1, e2) : e1; |
| } |
| |
| struct expr *expr_alloc_or(struct expr *e1, struct expr *e2) |
| { |
| if (!e1) |
| return e2; |
| return e2 ? expr_alloc_two(E_OR, e1, e2) : e1; |
| } |
| |
| struct expr *expr_copy(struct expr *org) |
| { |
| struct expr *e; |
| |
| if (!org) |
| return NULL; |
| |
| e = malloc(sizeof(*org)); |
| memcpy(e, org, sizeof(*org)); |
| switch (org->type) { |
| case E_SYMBOL: |
| e->left = org->left; |
| break; |
| case E_NOT: |
| e->left.expr = expr_copy(org->left.expr); |
| break; |
| case E_EQUAL: |
| case E_UNEQUAL: |
| e->left.sym = org->left.sym; |
| e->right.sym = org->right.sym; |
| break; |
| case E_AND: |
| case E_OR: |
| case E_CHOICE: |
| e->left.expr = expr_copy(org->left.expr); |
| e->right.expr = expr_copy(org->right.expr); |
| break; |
| default: |
| printf("can't copy type %d\n", e->type); |
| free(e); |
| e = NULL; |
| break; |
| } |
| |
| return e; |
| } |
| |
| void expr_free(struct expr *e) |
| { |
| if (!e) |
| return; |
| |
| switch (e->type) { |
| case E_SYMBOL: |
| break; |
| case E_NOT: |
| expr_free(e->left.expr); |
| return; |
| case E_EQUAL: |
| case E_UNEQUAL: |
| break; |
| case E_OR: |
| case E_AND: |
| expr_free(e->left.expr); |
| expr_free(e->right.expr); |
| break; |
| default: |
| printf("how to free type %d?\n", e->type); |
| break; |
| } |
| free(e); |
| } |
| |
| static int trans_count; |
| |
| #define e1 (*ep1) |
| #define e2 (*ep2) |
| |
| static void __expr_eliminate_eq(enum expr_type type, struct expr **ep1, struct expr **ep2) |
| { |
| if (e1->type == type) { |
| __expr_eliminate_eq(type, &e1->left.expr, &e2); |
| __expr_eliminate_eq(type, &e1->right.expr, &e2); |
| return; |
| } |
| if (e2->type == type) { |
| __expr_eliminate_eq(type, &e1, &e2->left.expr); |
| __expr_eliminate_eq(type, &e1, &e2->right.expr); |
| return; |
| } |
| if (e1->type == E_SYMBOL && e2->type == E_SYMBOL && |
| e1->left.sym == e2->left.sym && (e1->left.sym->flags & (SYMBOL_YES|SYMBOL_NO))) |
| return; |
| if (!expr_eq(e1, e2)) |
| return; |
| trans_count++; |
| expr_free(e1); expr_free(e2); |
| switch (type) { |
| case E_OR: |
| e1 = expr_alloc_symbol(&symbol_no); |
| e2 = expr_alloc_symbol(&symbol_no); |
| break; |
| case E_AND: |
| e1 = expr_alloc_symbol(&symbol_yes); |
| e2 = expr_alloc_symbol(&symbol_yes); |
| break; |
| default: |
| ; |
| } |
| } |
| |
| void expr_eliminate_eq(struct expr **ep1, struct expr **ep2) |
| { |
| if (!e1 || !e2) |
| return; |
| switch (e1->type) { |
| case E_OR: |
| case E_AND: |
| __expr_eliminate_eq(e1->type, ep1, ep2); |
| default: |
| ; |
| } |
| if (e1->type != e2->type) switch (e2->type) { |
| case E_OR: |
| case E_AND: |
| __expr_eliminate_eq(e2->type, ep1, ep2); |
| default: |
| ; |
| } |
| e1 = expr_eliminate_yn(e1); |
| e2 = expr_eliminate_yn(e2); |
| } |
| |
| #undef e1 |
| #undef e2 |
| |
| int expr_eq(struct expr *e1, struct expr *e2) |
| { |
| int res, old_count; |
| |
| if (e1->type != e2->type) |
| return 0; |
| switch (e1->type) { |
| case E_EQUAL: |
| case E_UNEQUAL: |
| return e1->left.sym == e2->left.sym && e1->right.sym == e2->right.sym; |
| case E_SYMBOL: |
| return e1->left.sym == e2->left.sym; |
| case E_NOT: |
| return expr_eq(e1->left.expr, e2->left.expr); |
| case E_AND: |
| case E_OR: |
| e1 = expr_copy(e1); |
| e2 = expr_copy(e2); |
| old_count = trans_count; |
| expr_eliminate_eq(&e1, &e2); |
| res = (e1->type == E_SYMBOL && e2->type == E_SYMBOL && |
| e1->left.sym == e2->left.sym); |
| expr_free(e1); |
| expr_free(e2); |
| trans_count = old_count; |
| return res; |
| case E_CHOICE: |
| case E_RANGE: |
| case E_NONE: |
| /* panic */; |
| } |
| |
| if (DEBUG_EXPR) { |
| expr_fprint(e1, stdout); |
| printf(" = "); |
| expr_fprint(e2, stdout); |
| printf(" ?\n"); |
| } |
| |
| return 0; |
| } |
| |
| struct expr *expr_eliminate_yn(struct expr *e) |
| { |
| struct expr *tmp; |
| |
| if (e) switch (e->type) { |
| case E_AND: |
| e->left.expr = expr_eliminate_yn(e->left.expr); |
| e->right.expr = expr_eliminate_yn(e->right.expr); |
| if (e->left.expr->type == E_SYMBOL) { |
| if (e->left.expr->left.sym == &symbol_no) { |
| expr_free(e->left.expr); |
| expr_free(e->right.expr); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_no; |
| e->right.expr = NULL; |
| return e; |
| } else if (e->left.expr->left.sym == &symbol_yes) { |
| free(e->left.expr); |
| tmp = e->right.expr; |
| *e = *(e->right.expr); |
| free(tmp); |
| return e; |
| } |
| } |
| if (e->right.expr->type == E_SYMBOL) { |
| if (e->right.expr->left.sym == &symbol_no) { |
| expr_free(e->left.expr); |
| expr_free(e->right.expr); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_no; |
| e->right.expr = NULL; |
| return e; |
| } else if (e->right.expr->left.sym == &symbol_yes) { |
| free(e->right.expr); |
| tmp = e->left.expr; |
| *e = *(e->left.expr); |
| free(tmp); |
| return e; |
| } |
| } |
| break; |
| case E_OR: |
| e->left.expr = expr_eliminate_yn(e->left.expr); |
| e->right.expr = expr_eliminate_yn(e->right.expr); |
| if (e->left.expr->type == E_SYMBOL) { |
| if (e->left.expr->left.sym == &symbol_no) { |
| free(e->left.expr); |
| tmp = e->right.expr; |
| *e = *(e->right.expr); |
| free(tmp); |
| return e; |
| } else if (e->left.expr->left.sym == &symbol_yes) { |
| expr_free(e->left.expr); |
| expr_free(e->right.expr); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_yes; |
| e->right.expr = NULL; |
| return e; |
| } |
| } |
| if (e->right.expr->type == E_SYMBOL) { |
| if (e->right.expr->left.sym == &symbol_no) { |
| free(e->right.expr); |
| tmp = e->left.expr; |
| *e = *(e->left.expr); |
| free(tmp); |
| return e; |
| } else if (e->right.expr->left.sym == &symbol_yes) { |
| expr_free(e->left.expr); |
| expr_free(e->right.expr); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_yes; |
| e->right.expr = NULL; |
| return e; |
| } |
| } |
| break; |
| default: |
| ; |
| } |
| return e; |
| } |
| |
| /* |
| * bool FOO!=n => FOO |
| */ |
| struct expr *expr_trans_bool(struct expr *e) |
| { |
| if (!e) |
| return NULL; |
| switch (e->type) { |
| case E_AND: |
| case E_OR: |
| case E_NOT: |
| e->left.expr = expr_trans_bool(e->left.expr); |
| e->right.expr = expr_trans_bool(e->right.expr); |
| break; |
| case E_UNEQUAL: |
| // FOO!=n -> FOO |
| if (e->left.sym->type == S_TRISTATE) { |
| if (e->right.sym == &symbol_no) { |
| e->type = E_SYMBOL; |
| e->right.sym = NULL; |
| } |
| } |
| break; |
| default: |
| ; |
| } |
| return e; |
| } |
| |
| /* |
| * e1 || e2 -> ? |
| */ |
| struct expr *expr_join_or(struct expr *e1, struct expr *e2) |
| { |
| struct expr *tmp; |
| struct symbol *sym1, *sym2; |
| |
| if (expr_eq(e1, e2)) |
| return expr_copy(e1); |
| if (e1->type != E_EQUAL && e1->type != E_UNEQUAL && e1->type != E_SYMBOL && e1->type != E_NOT) |
| return NULL; |
| if (e2->type != E_EQUAL && e2->type != E_UNEQUAL && e2->type != E_SYMBOL && e2->type != E_NOT) |
| return NULL; |
| if (e1->type == E_NOT) { |
| tmp = e1->left.expr; |
| if (tmp->type != E_EQUAL && tmp->type != E_UNEQUAL && tmp->type != E_SYMBOL) |
| return NULL; |
| sym1 = tmp->left.sym; |
| } else |
| sym1 = e1->left.sym; |
| if (e2->type == E_NOT) { |
| if (e2->left.expr->type != E_SYMBOL) |
| return NULL; |
| sym2 = e2->left.expr->left.sym; |
| } else |
| sym2 = e2->left.sym; |
| if (sym1 != sym2) |
| return NULL; |
| if (sym1->type != S_BOOLEAN && sym1->type != S_TRISTATE) |
| return NULL; |
| if (sym1->type == S_TRISTATE) { |
| if (e1->type == E_EQUAL && e2->type == E_EQUAL && |
| ((e1->right.sym == &symbol_yes && e2->right.sym == &symbol_mod) || |
| (e1->right.sym == &symbol_mod && e2->right.sym == &symbol_yes))) { |
| // (a='y') || (a='m') -> (a!='n') |
| return expr_alloc_comp(E_UNEQUAL, sym1, &symbol_no); |
| } |
| if (e1->type == E_EQUAL && e2->type == E_EQUAL && |
| ((e1->right.sym == &symbol_yes && e2->right.sym == &symbol_no) || |
| (e1->right.sym == &symbol_no && e2->right.sym == &symbol_yes))) { |
| // (a='y') || (a='n') -> (a!='m') |
| return expr_alloc_comp(E_UNEQUAL, sym1, &symbol_mod); |
| } |
| if (e1->type == E_EQUAL && e2->type == E_EQUAL && |
| ((e1->right.sym == &symbol_mod && e2->right.sym == &symbol_no) || |
| (e1->right.sym == &symbol_no && e2->right.sym == &symbol_mod))) { |
| // (a='m') || (a='n') -> (a!='y') |
| return expr_alloc_comp(E_UNEQUAL, sym1, &symbol_yes); |
| } |
| } |
| if (sym1->type == S_BOOLEAN && sym1 == sym2) { |
| if ((e1->type == E_NOT && e1->left.expr->type == E_SYMBOL && e2->type == E_SYMBOL) || |
| (e2->type == E_NOT && e2->left.expr->type == E_SYMBOL && e1->type == E_SYMBOL)) |
| return expr_alloc_symbol(&symbol_yes); |
| } |
| |
| if (DEBUG_EXPR) { |
| printf("optimize ("); |
| expr_fprint(e1, stdout); |
| printf(") || ("); |
| expr_fprint(e2, stdout); |
| printf(")?\n"); |
| } |
| return NULL; |
| } |
| |
| struct expr *expr_join_and(struct expr *e1, struct expr *e2) |
| { |
| struct expr *tmp; |
| struct symbol *sym1, *sym2; |
| |
| if (expr_eq(e1, e2)) |
| return expr_copy(e1); |
| if (e1->type != E_EQUAL && e1->type != E_UNEQUAL && e1->type != E_SYMBOL && e1->type != E_NOT) |
| return NULL; |
| if (e2->type != E_EQUAL && e2->type != E_UNEQUAL && e2->type != E_SYMBOL && e2->type != E_NOT) |
| return NULL; |
| if (e1->type == E_NOT) { |
| tmp = e1->left.expr; |
| if (tmp->type != E_EQUAL && tmp->type != E_UNEQUAL && tmp->type != E_SYMBOL) |
| return NULL; |
| sym1 = tmp->left.sym; |
| } else |
| sym1 = e1->left.sym; |
| if (e2->type == E_NOT) { |
| if (e2->left.expr->type != E_SYMBOL) |
| return NULL; |
| sym2 = e2->left.expr->left.sym; |
| } else |
| sym2 = e2->left.sym; |
| if (sym1 != sym2) |
| return NULL; |
| if (sym1->type != S_BOOLEAN && sym1->type != S_TRISTATE) |
| return NULL; |
| |
| if ((e1->type == E_SYMBOL && e2->type == E_EQUAL && e2->right.sym == &symbol_yes) || |
| (e2->type == E_SYMBOL && e1->type == E_EQUAL && e1->right.sym == &symbol_yes)) |
| // (a) && (a='y') -> (a='y') |
| return expr_alloc_comp(E_EQUAL, sym1, &symbol_yes); |
| |
| if ((e1->type == E_SYMBOL && e2->type == E_UNEQUAL && e2->right.sym == &symbol_no) || |
| (e2->type == E_SYMBOL && e1->type == E_UNEQUAL && e1->right.sym == &symbol_no)) |
| // (a) && (a!='n') -> (a) |
| return expr_alloc_symbol(sym1); |
| |
| if ((e1->type == E_SYMBOL && e2->type == E_UNEQUAL && e2->right.sym == &symbol_mod) || |
| (e2->type == E_SYMBOL && e1->type == E_UNEQUAL && e1->right.sym == &symbol_mod)) |
| // (a) && (a!='m') -> (a='y') |
| return expr_alloc_comp(E_EQUAL, sym1, &symbol_yes); |
| |
| if (sym1->type == S_TRISTATE) { |
| if (e1->type == E_EQUAL && e2->type == E_UNEQUAL) { |
| // (a='b') && (a!='c') -> 'b'='c' ? 'n' : a='b' |
| sym2 = e1->right.sym; |
| if ((e2->right.sym->flags & SYMBOL_CONST) && (sym2->flags & SYMBOL_CONST)) |
| return sym2 != e2->right.sym ? expr_alloc_comp(E_EQUAL, sym1, sym2) |
| : expr_alloc_symbol(&symbol_no); |
| } |
| if (e1->type == E_UNEQUAL && e2->type == E_EQUAL) { |
| // (a='b') && (a!='c') -> 'b'='c' ? 'n' : a='b' |
| sym2 = e2->right.sym; |
| if ((e1->right.sym->flags & SYMBOL_CONST) && (sym2->flags & SYMBOL_CONST)) |
| return sym2 != e1->right.sym ? expr_alloc_comp(E_EQUAL, sym1, sym2) |
| : expr_alloc_symbol(&symbol_no); |
| } |
| if (e1->type == E_UNEQUAL && e2->type == E_UNEQUAL && |
| ((e1->right.sym == &symbol_yes && e2->right.sym == &symbol_no) || |
| (e1->right.sym == &symbol_no && e2->right.sym == &symbol_yes))) |
| // (a!='y') && (a!='n') -> (a='m') |
| return expr_alloc_comp(E_EQUAL, sym1, &symbol_mod); |
| |
| if (e1->type == E_UNEQUAL && e2->type == E_UNEQUAL && |
| ((e1->right.sym == &symbol_yes && e2->right.sym == &symbol_mod) || |
| (e1->right.sym == &symbol_mod && e2->right.sym == &symbol_yes))) |
| // (a!='y') && (a!='m') -> (a='n') |
| return expr_alloc_comp(E_EQUAL, sym1, &symbol_no); |
| |
| if (e1->type == E_UNEQUAL && e2->type == E_UNEQUAL && |
| ((e1->right.sym == &symbol_mod && e2->right.sym == &symbol_no) || |
| (e1->right.sym == &symbol_no && e2->right.sym == &symbol_mod))) |
| // (a!='m') && (a!='n') -> (a='m') |
| return expr_alloc_comp(E_EQUAL, sym1, &symbol_yes); |
| |
| if ((e1->type == E_SYMBOL && e2->type == E_EQUAL && e2->right.sym == &symbol_mod) || |
| (e2->type == E_SYMBOL && e1->type == E_EQUAL && e1->right.sym == &symbol_mod) || |
| (e1->type == E_SYMBOL && e2->type == E_UNEQUAL && e2->right.sym == &symbol_yes) || |
| (e2->type == E_SYMBOL && e1->type == E_UNEQUAL && e1->right.sym == &symbol_yes)) |
| return NULL; |
| } |
| |
| if (DEBUG_EXPR) { |
| printf("optimize ("); |
| expr_fprint(e1, stdout); |
| printf(") && ("); |
| expr_fprint(e2, stdout); |
| printf(")?\n"); |
| } |
| return NULL; |
| } |
| |
| static void expr_eliminate_dups1(enum expr_type type, struct expr **ep1, struct expr **ep2) |
| { |
| #define e1 (*ep1) |
| #define e2 (*ep2) |
| struct expr *tmp; |
| |
| if (e1->type == type) { |
| expr_eliminate_dups1(type, &e1->left.expr, &e2); |
| expr_eliminate_dups1(type, &e1->right.expr, &e2); |
| return; |
| } |
| if (e2->type == type) { |
| expr_eliminate_dups1(type, &e1, &e2->left.expr); |
| expr_eliminate_dups1(type, &e1, &e2->right.expr); |
| return; |
| } |
| if (e1 == e2) |
| return; |
| |
| switch (e1->type) { |
| case E_OR: case E_AND: |
| expr_eliminate_dups1(e1->type, &e1, &e1); |
| default: |
| ; |
| } |
| |
| switch (type) { |
| case E_OR: |
| tmp = expr_join_or(e1, e2); |
| if (tmp) { |
| expr_free(e1); expr_free(e2); |
| e1 = expr_alloc_symbol(&symbol_no); |
| e2 = tmp; |
| trans_count++; |
| } |
| break; |
| case E_AND: |
| tmp = expr_join_and(e1, e2); |
| if (tmp) { |
| expr_free(e1); expr_free(e2); |
| e1 = expr_alloc_symbol(&symbol_yes); |
| e2 = tmp; |
| trans_count++; |
| } |
| break; |
| default: |
| ; |
| } |
| #undef e1 |
| #undef e2 |
| } |
| |
| static void expr_eliminate_dups2(enum expr_type type, struct expr **ep1, struct expr **ep2) |
| { |
| #define e1 (*ep1) |
| #define e2 (*ep2) |
| struct expr *tmp, *tmp1, *tmp2; |
| |
| if (e1->type == type) { |
| expr_eliminate_dups2(type, &e1->left.expr, &e2); |
| expr_eliminate_dups2(type, &e1->right.expr, &e2); |
| return; |
| } |
| if (e2->type == type) { |
| expr_eliminate_dups2(type, &e1, &e2->left.expr); |
| expr_eliminate_dups2(type, &e1, &e2->right.expr); |
| } |
| if (e1 == e2) |
| return; |
| |
| switch (e1->type) { |
| case E_OR: |
| expr_eliminate_dups2(e1->type, &e1, &e1); |
| // (FOO || BAR) && (!FOO && !BAR) -> n |
| tmp1 = expr_transform(expr_alloc_one(E_NOT, expr_copy(e1))); |
| tmp2 = expr_copy(e2); |
| tmp = expr_extract_eq_and(&tmp1, &tmp2); |
| if (expr_is_yes(tmp1)) { |
| expr_free(e1); |
| e1 = expr_alloc_symbol(&symbol_no); |
| trans_count++; |
| } |
| expr_free(tmp2); |
| expr_free(tmp1); |
| expr_free(tmp); |
| break; |
| case E_AND: |
| expr_eliminate_dups2(e1->type, &e1, &e1); |
| // (FOO && BAR) || (!FOO || !BAR) -> y |
| tmp1 = expr_transform(expr_alloc_one(E_NOT, expr_copy(e1))); |
| tmp2 = expr_copy(e2); |
| tmp = expr_extract_eq_or(&tmp1, &tmp2); |
| if (expr_is_no(tmp1)) { |
| expr_free(e1); |
| e1 = expr_alloc_symbol(&symbol_yes); |
| trans_count++; |
| } |
| expr_free(tmp2); |
| expr_free(tmp1); |
| expr_free(tmp); |
| break; |
| default: |
| ; |
| } |
| #undef e1 |
| #undef e2 |
| } |
| |
| struct expr *expr_eliminate_dups(struct expr *e) |
| { |
| int oldcount; |
| if (!e) |
| return e; |
| |
| oldcount = trans_count; |
| while (1) { |
| trans_count = 0; |
| switch (e->type) { |
| case E_OR: case E_AND: |
| expr_eliminate_dups1(e->type, &e, &e); |
| expr_eliminate_dups2(e->type, &e, &e); |
| default: |
| ; |
| } |
| if (!trans_count) |
| break; |
| e = expr_eliminate_yn(e); |
| } |
| trans_count = oldcount; |
| return e; |
| } |
| |
| struct expr *expr_transform(struct expr *e) |
| { |
| struct expr *tmp; |
| |
| if (!e) |
| return NULL; |
| switch (e->type) { |
| case E_EQUAL: |
| case E_UNEQUAL: |
| case E_SYMBOL: |
| case E_CHOICE: |
| break; |
| default: |
| e->left.expr = expr_transform(e->left.expr); |
| e->right.expr = expr_transform(e->right.expr); |
| } |
| |
| switch (e->type) { |
| case E_EQUAL: |
| if (e->left.sym->type != S_BOOLEAN) |
| break; |
| if (e->right.sym == &symbol_no) { |
| e->type = E_NOT; |
| e->left.expr = expr_alloc_symbol(e->left.sym); |
| e->right.sym = NULL; |
| break; |
| } |
| if (e->right.sym == &symbol_mod) { |
| printf("boolean symbol %s tested for 'm'? test forced to 'n'\n", e->left.sym->name); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_no; |
| e->right.sym = NULL; |
| break; |
| } |
| if (e->right.sym == &symbol_yes) { |
| e->type = E_SYMBOL; |
| e->right.sym = NULL; |
| break; |
| } |
| break; |
| case E_UNEQUAL: |
| if (e->left.sym->type != S_BOOLEAN) |
| break; |
| if (e->right.sym == &symbol_no) { |
| e->type = E_SYMBOL; |
| e->right.sym = NULL; |
| break; |
| } |
| if (e->right.sym == &symbol_mod) { |
| printf("boolean symbol %s tested for 'm'? test forced to 'y'\n", e->left.sym->name); |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_yes; |
| e->right.sym = NULL; |
| break; |
| } |
| if (e->right.sym == &symbol_yes) { |
| e->type = E_NOT; |
| e->left.expr = expr_alloc_symbol(e->left.sym); |
| e->right.sym = NULL; |
| break; |
| } |
| break; |
| case E_NOT: |
| switch (e->left.expr->type) { |
| case E_NOT: |
| // !!a -> a |
| tmp = e->left.expr->left.expr; |
| free(e->left.expr); |
| free(e); |
| e = tmp; |
| e = expr_transform(e); |
| break; |
| case E_EQUAL: |
| case E_UNEQUAL: |
| // !a='x' -> a!='x' |
| tmp = e->left.expr; |
| free(e); |
| e = tmp; |
| e->type = e->type == E_EQUAL ? E_UNEQUAL : E_EQUAL; |
| break; |
| case E_OR: |
| // !(a || b) -> !a && !b |
| tmp = e->left.expr; |
| e->type = E_AND; |
| e->right.expr = expr_alloc_one(E_NOT, tmp->right.expr); |
| tmp->type = E_NOT; |
| tmp->right.expr = NULL; |
| e = expr_transform(e); |
| break; |
| case E_AND: |
| // !(a && b) -> !a || !b |
| tmp = e->left.expr; |
| e->type = E_OR; |
| e->right.expr = expr_alloc_one(E_NOT, tmp->right.expr); |
| tmp->type = E_NOT; |
| tmp->right.expr = NULL; |
| e = expr_transform(e); |
| break; |
| case E_SYMBOL: |
| if (e->left.expr->left.sym == &symbol_yes) { |
| // !'y' -> 'n' |
| tmp = e->left.expr; |
| free(e); |
| e = tmp; |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_no; |
| break; |
| } |
| if (e->left.expr->left.sym == &symbol_mod) { |
| // !'m' -> 'm' |
| tmp = e->left.expr; |
| free(e); |
| e = tmp; |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_mod; |
| break; |
| } |
| if (e->left.expr->left.sym == &symbol_no) { |
| // !'n' -> 'y' |
| tmp = e->left.expr; |
| free(e); |
| e = tmp; |
| e->type = E_SYMBOL; |
| e->left.sym = &symbol_yes; |
| break; |
| } |
| break; |
| default: |
| ; |
| } |
| break; |
| default: |
| ; |
| } |
| return e; |
| } |
| |
| int expr_contains_symbol(struct expr *dep, struct symbol *sym) |
| { |
| if (!dep) |
| return 0; |
| |
| switch (dep->type) { |
| case E_AND: |
| case E_OR: |
| return expr_contains_symbol(dep->left.expr, sym) || |
| expr_contains_symbol(dep->right.expr, sym); |
| case E_SYMBOL: |
| return dep->left.sym == sym; |
| case E_EQUAL: |
| case E_UNEQUAL: |
| return dep->left.sym == sym || |
| dep->right.sym == sym; |
| case E_NOT: |
| return expr_contains_symbol(dep->left.expr, sym); |
| default: |
| ; |
| } |
| return 0; |
| } |
| |
| bool expr_depends_symbol(struct expr *dep, struct symbol *sym) |
| { |
| if (!dep) |
| return false; |
| |
| switch (dep->type) { |
| case E_AND: |
| return expr_depends_symbol(dep->left.expr, sym) || |
| expr_depends_symbol(dep->right.expr, sym); |
| case E_SYMBOL: |
| return dep->left.sym == sym; |
| case E_EQUAL: |
| if (dep->left.sym == sym) { |
| if (dep->right.sym == &symbol_yes || dep->right.sym == &symbol_mod) |
| return true; |
| } |
| break; |
| case E_UNEQUAL: |
| if (dep->left.sym == sym) { |
| if (dep->right.sym == &symbol_no) |
| return true; |
| } |
| break; |
| default: |
| ; |
| } |
| return false; |
| } |
| |
| struct expr *expr_extract_eq_and(struct expr **ep1, struct expr **ep2) |
| { |
| struct expr *tmp = NULL; |
| expr_extract_eq(E_AND, &tmp, ep1, ep2); |
| if (tmp) { |
| *ep1 = expr_eliminate_yn(*ep1); |
| *ep2 = expr_eliminate_yn(*ep2); |
| } |
| return tmp; |
| } |
| |
| struct expr *expr_extract_eq_or(struct expr **ep1, struct expr **ep2) |
| { |
| struct expr *tmp = NULL; |
| expr_extract_eq(E_OR, &tmp, ep1, ep2); |
| if (tmp) { |
| *ep1 = expr_eliminate_yn(*ep1); |
| *ep2 = expr_eliminate_yn(*ep2); |
| } |
| return tmp; |
| } |
| |
| void expr_extract_eq(enum expr_type type, struct expr **ep, struct expr **ep1, struct expr **ep2) |
| { |
| #define e1 (*ep1) |
| #define e2 (*ep2) |
| if (e1->type == type) { |
| expr_extract_eq(type, ep, &e1->left.expr, &e2); |
| expr_extract_eq(type, ep, &e1->right.expr, &e2); |
| return; |
| } |
| if (e2->type == type) { |
| expr_extract_eq(type, ep, ep1, &e2->left.expr); |
| expr_extract_eq(type, ep, ep1, &e2->right.expr); |
| return; |
| } |
| if (expr_eq(e1, e2)) { |
| *ep = *ep ? expr_alloc_two(type, *ep, e1) : e1; |
| expr_free(e2); |
| if (type == E_AND) { |
| e1 = expr_alloc_symbol(&symbol_yes); |
| e2 = expr_alloc_symbol(&symbol_yes); |
| } else if (type == E_OR) { |
| e1 = expr_alloc_symbol(&symbol_no); |
| e2 = expr_alloc_symbol(&symbol_no); |
| } |
| } |
| #undef e1 |
| #undef e2 |
| } |
| |
| struct expr *expr_trans_compare(struct expr *e, enum expr_type type, struct symbol *sym) |
| { |
| struct expr *e1, *e2; |
| |
| if (!e) { |
| e = expr_alloc_symbol(sym); |
| if (type == E_UNEQUAL) |
| e = expr_alloc_one(E_NOT, e); |
| return e; |
| } |
| switch (e->type) { |
| case E_AND: |
| e1 = expr_trans_compare(e->left.expr, E_EQUAL, sym); |
| e2 = expr_trans_compare(e->right.expr, E_EQUAL, sym); |
| if (sym == &symbol_yes) |
| e = expr_alloc_two(E_AND, e1, e2); |
| if (sym == &symbol_no) |
| e = expr_alloc_two(E_OR, e1, e2); |
| if (type == E_UNEQUAL) |
| e = expr_alloc_one(E_NOT, e); |
| return e; |
| case E_OR: |
| e1 = expr_trans_compare(e->left.expr, E_EQUAL, sym); |
| e2 = expr_trans_compare(e->right.expr, E_EQUAL, sym); |
| if (sym == &symbol_yes) |
| e = expr_alloc_two(E_OR, e1, e2); |
| if (sym == &symbol_no) |
| e = expr_alloc_two(E_AND, e1, e2); |
| if (type == E_UNEQUAL) |
| e = expr_alloc_one(E_NOT, e); |
| return e; |
| case E_NOT: |
| return expr_trans_compare(e->left.expr, type == E_EQUAL ? E_UNEQUAL : E_EQUAL, sym); |
| case E_UNEQUAL: |
| case E_EQUAL: |
| if (type == E_EQUAL) { |
| if (sym == &symbol_yes) |
| return expr_copy(e); |
| if (sym == &symbol_mod) |
| return expr_alloc_symbol(&symbol_no); |
| if (sym == &symbol_no) |
| return expr_alloc_one(E_NOT, expr_copy(e)); |
| } else { |
| if (sym == &symbol_yes) |
| return expr_alloc_one(E_NOT, expr_copy(e)); |
| if (sym == &symbol_mod) |
| return expr_alloc_symbol(&symbol_yes); |
| if (sym == &symbol_no) |
| return expr_copy(e); |
| } |
| break; |
| case E_SYMBOL: |
| return expr_alloc_comp(type, e->left.sym, sym); |
| case E_CHOICE: |
| case E_RANGE: |
| case E_NONE: |
| /* panic */; |
| } |
| return NULL; |
| } |
| |
| tristate expr_calc_value(struct expr *e) |
| { |
| tristate val1, val2; |
| const char *str1, *str2; |
| |
| if (!e) |
| return yes; |
| |
| switch (e->type) { |
| case E_SYMBOL: |
| sym_calc_value(e->left.sym); |
| return e->left.sym->curr.tri; |
| case E_AND: |
| val1 = expr_calc_value(e->left.expr); |
| val2 = expr_calc_value(e->right.expr); |
| return E_AND(val1, val2); |
| case E_OR: |
| val1 = expr_calc_value(e->left.expr); |
| val2 = expr_calc_value(e->right.expr); |
| return E_OR(val1, val2); |
| case E_NOT: |
| val1 = expr_calc_value(e->left.expr); |
| return E_NOT(val1); |
| case E_EQUAL: |
| sym_calc_value(e->left.sym); |
| sym_calc_value(e->right.sym); |
| str1 = sym_get_string_value(e->left.sym); |
| str2 = sym_get_string_value(e->right.sym); |
| return !strcmp(str1, str2) ? yes : no; |
| case E_UNEQUAL: |
| sym_calc_value(e->left.sym); |
| sym_calc_value(e->right.sym); |
| str1 = sym_get_string_value(e->left.sym); |
| str2 = sym_get_string_value(e->right.sym); |
| return !strcmp(str1, str2) ? no : yes; |
| default: |
| printf("expr_calc_value: %d?\n", e->type); |
| return no; |
| } |
| } |
| |
| int expr_compare_type(enum expr_type t1, enum expr_type t2) |
| { |
| #if 0 |
| return 1; |
| #else |
| if (t1 == t2) |
| return 0; |
| switch (t1) { |
| case E_EQUAL: |
| case E_UNEQUAL: |
| if (t2 == E_NOT) |
| return 1; |
| case E_NOT: |
| if (t2 == E_AND) |
| return 1; |
| case E_AND: |
| if (t2 == E_OR) |
| return 1; |
| case E_OR: |
| if (t2 == E_CHOICE) |
| return 1; |
| case E_CHOICE: |
| if (t2 == 0) |
| return 1; |
| default: |
| return -1; |
| } |
| printf("[%dgt%d?]", t1, t2); |
| return 0; |
| #endif |
| } |
| |
| void expr_print(struct expr *e, void (*fn)(void *, const char *), void *data, int prevtoken) |
| { |
| if (!e) { |
| fn(data, "y"); |
| return; |
| } |
| |
| if (expr_compare_type(prevtoken, e->type) > 0) |
| fn(data, "("); |
| switch (e->type) { |
| case E_SYMBOL: |
| if (e->left.sym->name) |
| fn(data, e->left.sym->name); |
| else |
| fn(data, "<choice>"); |
| break; |
| case E_NOT: |
| fn(data, "!"); |
| expr_print(e->left.expr, fn, data, E_NOT); |
| break; |
| case E_EQUAL: |
| fn(data, e->left.sym->name); |
| fn(data, "="); |
| fn(data, e->right.sym->name); |
| break; |
| case E_UNEQUAL: |
| fn(data, e->left.sym->name); |
| fn(data, "!="); |
| fn(data, e->right.sym->name); |
| break; |
| case E_OR: |
| expr_print(e->left.expr, fn, data, E_OR); |
| fn(data, " || "); |
| expr_print(e->right.expr, fn, data, E_OR); |
| break; |
| case E_AND: |
| expr_print(e->left.expr, fn, data, E_AND); |
| fn(data, " && "); |
| expr_print(e->right.expr, fn, data, E_AND); |
| break; |
| case E_CHOICE: |
| fn(data, e->right.sym->name); |
| if (e->left.expr) { |
| fn(data, " ^ "); |
| expr_print(e->left.expr, fn, data, E_CHOICE); |
| } |
| break; |
| case E_RANGE: |
| fn(data, "["); |
| fn(data, e->left.sym->name); |
| fn(data, " "); |
| fn(data, e->right.sym->name); |
| fn(data, "]"); |
| break; |
| default: |
| { |
| char buf[32]; |
| sprintf(buf, "<unknown type %d>", e->type); |
| fn(data, buf); |
| break; |
| } |
| } |
| if (expr_compare_type(prevtoken, e->type) > 0) |
| fn(data, ")"); |
| } |
| |
| static void expr_print_file_helper(void *data, const char *str) |
| { |
| fwrite(str, strlen(str), 1, data); |
| } |
| |
| void expr_fprint(struct expr *e, FILE *out) |
| { |
| expr_print(e, expr_print_file_helper, out, E_NONE); |
| } |