/* * Sparse - a semantic source parser. * * Copyright (C) 2003 Transmeta Corp. * 2003-2004 Linus Torvalds * * Licensed under the Open Software License version 1.1 */ #include #include #include "lib.h" #include "allocate.h" #include "token.h" #include "parse.h" #include "symbol.h" #include "expression.h" static struct expression * dup_expression(struct expression *expr) { struct expression *dup = alloc_expression(expr->pos, expr->type); *dup = *expr; return dup; } static struct statement * dup_statement(struct statement *stmt) { struct statement *dup = alloc_statement(stmt->pos, stmt->type); *dup = *stmt; return dup; } static struct symbol *copy_symbol(struct position pos, struct symbol *sym) { if (!sym) return sym; if (sym->ctype.modifiers & (MOD_STATIC | MOD_EXTERN | MOD_TOPLEVEL | MOD_INLINE)) return sym; if (!sym->replace) { warning(pos, "unreplaced symbol '%s'", show_ident(sym->ident)); return sym; } return sym->replace; } static struct symbol_list *copy_symbol_list(struct symbol_list *src) { struct symbol_list *dst = NULL; struct symbol *sym; FOR_EACH_PTR(src, sym) { struct symbol *newsym = copy_symbol(sym->pos, sym); add_symbol(&dst, newsym); } END_FOR_EACH_PTR(sym); return dst; } static struct expression * copy_expression(struct expression *expr) { if (!expr) return NULL; switch (expr->type) { /* * EXPR_SYMBOL is the interesting case, we may need to replace the * symbol to the new copy. */ case EXPR_SYMBOL: { struct symbol *sym = copy_symbol(expr->pos, expr->symbol); if (sym == expr->symbol) break; expr = dup_expression(expr); expr->symbol = sym; break; } /* Atomics, never change, just return the expression directly */ case EXPR_VALUE: case EXPR_STRING: case EXPR_FVALUE: case EXPR_TYPE: break; /* Unops: check if the subexpression is unique */ case EXPR_PREOP: case EXPR_POSTOP: { struct expression *unop = copy_expression(expr->unop); if (expr->unop == unop) break; expr = dup_expression(expr); expr->unop = unop; break; } case EXPR_SLICE: { struct expression *base = copy_expression(expr->base); expr = dup_expression(expr); expr->base = base; break; } /* Binops: copy left/right expressions */ case EXPR_BINOP: case EXPR_COMMA: case EXPR_COMPARE: case EXPR_LOGICAL: { struct expression *left = copy_expression(expr->left); struct expression *right = copy_expression(expr->right); if (left == expr->left && right == expr->right) break; expr = dup_expression(expr); expr->left = left; expr->right = right; break; } case EXPR_ASSIGNMENT: { struct expression *left = copy_expression(expr->left); struct expression *right = copy_expression(expr->right); if (expr->op == '=' && left == expr->left && right == expr->right) break; expr = dup_expression(expr); expr->left = left; expr->right = right; break; } /* Dereference */ case EXPR_DEREF: { struct expression *deref = copy_expression(expr->deref); expr = dup_expression(expr); expr->deref = deref; break; } /* Cast/sizeof/__alignof__ */ case EXPR_CAST: if (expr->cast_expression->type == EXPR_INITIALIZER) { struct expression *cast = expr->cast_expression; struct symbol *sym = expr->cast_type; expr = dup_expression(expr); expr->cast_expression = copy_expression(cast); expr->cast_type = alloc_symbol(sym->pos, sym->type); *expr->cast_type = *sym; break; } case EXPR_IMPLIED_CAST: case EXPR_SIZEOF: case EXPR_PTRSIZEOF: case EXPR_ALIGNOF: { struct expression *cast = copy_expression(expr->cast_expression); if (cast == expr->cast_expression) break; expr = dup_expression(expr); expr->cast_expression = cast; break; } /* Conditional expression */ case EXPR_SELECT: case EXPR_CONDITIONAL: { struct expression *cond = copy_expression(expr->conditional); struct expression *true = copy_expression(expr->cond_true); struct expression *false = copy_expression(expr->cond_false); if (cond == expr->conditional && true == expr->cond_true && false == expr->cond_false) break; expr = dup_expression(expr); expr->conditional = cond; expr->cond_true = true; expr->cond_false = false; break; } /* Statement expression */ case EXPR_STATEMENT: { struct statement *stmt = alloc_statement(expr->pos, STMT_COMPOUND); copy_statement(expr->statement, stmt); expr = dup_expression(expr); expr->statement = stmt; break; } /* Call expression */ case EXPR_CALL: { struct expression *fn = copy_expression(expr->fn); struct expression_list *list = expr->args; struct expression *arg; expr = dup_expression(expr); expr->fn = fn; expr->args = NULL; FOR_EACH_PTR(list, arg) { add_expression(&expr->args, copy_expression(arg)); } END_FOR_EACH_PTR(arg); break; } /* Initializer list statement */ case EXPR_INITIALIZER: { struct expression_list *list = expr->expr_list; struct expression *entry; expr = dup_expression(expr); expr->expr_list = NULL; FOR_EACH_PTR(list, entry) { add_expression(&expr->expr_list, copy_expression(entry)); } END_FOR_EACH_PTR(entry); break; } /* Label in inline function - hmm. */ case EXPR_LABEL: { struct symbol *label_symbol = copy_symbol(expr->pos, expr->label_symbol); expr = dup_expression(expr); expr->label_symbol = label_symbol; break; } case EXPR_INDEX: { struct expression *sub_expr = copy_expression(expr->idx_expression); if (sub_expr == expr->idx_expression) break; expr = dup_expression(expr); expr->idx_expression = sub_expr; break; } case EXPR_IDENTIFIER: { struct expression *sub_expr = copy_expression(expr->ident_expression); expr = dup_expression(expr); expr->ident_expression = sub_expr; break; } /* Position in initializer.. */ case EXPR_POS: { struct expression *val = copy_expression(expr->init_expr); expr = dup_expression(expr); expr->init_expr = val; break; } default: warning(expr->pos, "trying to copy expression type %d", expr->type); } return expr; } static struct expression_list *copy_asm_constraints(struct expression_list *in) { struct expression_list *out = NULL; struct expression *expr; int state = 0; FOR_EACH_PTR(in, expr) { switch (state) { case 0: /* identifier */ case 1: /* constraint */ state++; add_expression(&out, expr); continue; case 2: /* expression */ state = 0; add_expression(&out, copy_expression(expr)); continue; } } END_FOR_EACH_PTR(expr); return out; } static void set_replace(struct symbol *old, struct symbol *new) { new->replace = old; old->replace = new; } static void unset_replace(struct symbol *sym) { struct symbol *r = sym->replace; if (!r) { warning(sym->pos, "symbol '%s' not replaced?", show_ident(sym->ident)); return; } r->replace = NULL; sym->replace = NULL; } static void unset_replace_list(struct symbol_list *list) { struct symbol *sym; FOR_EACH_PTR(list, sym) { unset_replace(sym); } END_FOR_EACH_PTR(sym); } static struct statement *copy_one_statement(struct statement *stmt) { if (!stmt) return NULL; switch(stmt->type) { case STMT_NONE: break; case STMT_DECLARATION: { struct symbol *sym; struct statement *newstmt = dup_statement(stmt); newstmt->declaration = NULL; FOR_EACH_PTR(stmt->declaration, sym) { struct symbol *newsym = copy_symbol(stmt->pos, sym); if (newsym != sym) newsym->initializer = copy_expression(sym->initializer); add_symbol(&newstmt->declaration, newsym); } END_FOR_EACH_PTR(sym); stmt = newstmt; break; } case STMT_CONTEXT: case STMT_EXPRESSION: { struct expression *expr = copy_expression(stmt->expression); if (expr == stmt->expression) break; stmt = dup_statement(stmt); stmt->expression = expr; break; } case STMT_RANGE: { struct expression *expr = copy_expression(stmt->range_expression); if (expr == stmt->expression) break; stmt = dup_statement(stmt); stmt->range_expression = expr; break; } case STMT_COMPOUND: { struct statement *new = alloc_statement(stmt->pos, STMT_COMPOUND); copy_statement(stmt, new); stmt = new; break; } case STMT_IF: { struct expression *cond = stmt->if_conditional; struct statement *true = stmt->if_true; struct statement *false = stmt->if_false; cond = copy_expression(cond); true = copy_one_statement(true); false = copy_one_statement(false); if (stmt->if_conditional == cond && stmt->if_true == true && stmt->if_false == false) break; stmt = dup_statement(stmt); stmt->if_conditional = cond; stmt->if_true = true; stmt->if_false = false; break; } case STMT_RETURN: { struct expression *retval = copy_expression(stmt->ret_value); struct symbol *sym = copy_symbol(stmt->pos, stmt->ret_target); stmt = dup_statement(stmt); stmt->ret_value = retval; stmt->ret_target = sym; break; } case STMT_CASE: { stmt = dup_statement(stmt); stmt->case_label = copy_symbol(stmt->pos, stmt->case_label); stmt->case_expression = copy_expression(stmt->case_expression); stmt->case_to = copy_expression(stmt->case_to); stmt->case_statement = copy_one_statement(stmt->case_statement); break; } case STMT_SWITCH: { struct symbol *switch_break = copy_symbol(stmt->pos, stmt->switch_break); struct symbol *switch_case = copy_symbol(stmt->pos, stmt->switch_case); struct expression *expr = copy_expression(stmt->switch_expression); struct statement *switch_stmt = copy_one_statement(stmt->switch_statement); stmt = dup_statement(stmt); switch_case->symbol_list = copy_symbol_list(switch_case->symbol_list); stmt->switch_break = switch_break; stmt->switch_case = switch_case; stmt->switch_expression = expr; stmt->switch_statement = switch_stmt; break; } case STMT_ITERATOR: { stmt = dup_statement(stmt); stmt->iterator_break = copy_symbol(stmt->pos, stmt->iterator_break); stmt->iterator_continue = copy_symbol(stmt->pos, stmt->iterator_continue); stmt->iterator_syms = copy_symbol_list(stmt->iterator_syms); stmt->iterator_pre_statement = copy_one_statement(stmt->iterator_pre_statement); stmt->iterator_pre_condition = copy_expression(stmt->iterator_pre_condition); stmt->iterator_statement = copy_one_statement(stmt->iterator_statement); stmt->iterator_post_statement = copy_one_statement(stmt->iterator_post_statement); stmt->iterator_post_condition = copy_expression(stmt->iterator_post_condition); break; } case STMT_LABEL: { stmt = dup_statement(stmt); stmt->label_identifier = copy_symbol(stmt->pos, stmt->label_identifier); stmt->label_statement = copy_one_statement(stmt->label_statement); break; } case STMT_GOTO: { stmt = dup_statement(stmt); stmt->goto_label = copy_symbol(stmt->pos, stmt->goto_label); stmt->goto_expression = copy_expression(stmt->goto_expression); stmt->target_list = copy_symbol_list(stmt->target_list); break; } case STMT_ASM: { stmt = dup_statement(stmt); stmt->asm_inputs = copy_asm_constraints(stmt->asm_inputs); stmt->asm_outputs = copy_asm_constraints(stmt->asm_outputs); /* no need to dup "clobbers", since they are all constant strings */ break; } default: warning(stmt->pos, "trying to copy statement type %d", stmt->type); break; } return stmt; } /* * Copy a stateemnt tree from 'src' to 'dst', where both * source and destination are of type STMT_COMPOUND. * * We do this for the tree-level inliner. * * This doesn't do the symbol replacement right: it's not * re-entrant. */ void copy_statement(struct statement *src, struct statement *dst) { struct statement *stmt; FOR_EACH_PTR(src->stmts, stmt) { add_statement(&dst->stmts, copy_one_statement(stmt)); } END_FOR_EACH_PTR(stmt); dst->ret = copy_symbol(src->pos, src->ret); } static struct symbol *create_copy_symbol(struct symbol *orig) { struct symbol *sym = orig; if (orig) { sym = alloc_symbol(orig->pos, orig->type); *sym = *orig; sym->bb_target = NULL; sym->pseudo = NULL; set_replace(orig, sym); orig = sym; } return orig; } static struct symbol_list *create_symbol_list(struct symbol_list *src) { struct symbol_list *dst = NULL; struct symbol *sym; FOR_EACH_PTR(src, sym) { struct symbol *newsym = create_copy_symbol(sym); add_symbol(&dst, newsym); } END_FOR_EACH_PTR(sym); return dst; } int inline_function(struct expression *expr, struct symbol *sym) { struct symbol_list * fn_symbol_list; struct symbol *fn = sym->ctype.base_type; struct expression_list *arg_list = expr->args; struct statement *stmt = alloc_statement(expr->pos, STMT_COMPOUND); struct symbol_list *name_list, *arg_decl; struct symbol *name; struct expression *arg; if (!fn->inline_stmt) { sparse_error(fn->pos, "marked inline, but without a definition"); return 0; } if (fn->expanding) return 0; fn->expanding = 1; name_list = fn->arguments; expr->type = EXPR_STATEMENT; expr->statement = stmt; expr->ctype = fn->ctype.base_type; fn_symbol_list = create_symbol_list(sym->inline_symbol_list); arg_decl = NULL; PREPARE_PTR_LIST(name_list, name); FOR_EACH_PTR(arg_list, arg) { struct symbol *a = alloc_symbol(arg->pos, SYM_NODE); a->ctype.base_type = arg->ctype; if (name) { *a = *name; set_replace(name, a); add_symbol(&fn_symbol_list, a); } a->initializer = arg; add_symbol(&arg_decl, a); NEXT_PTR_LIST(name); } END_FOR_EACH_PTR(arg); FINISH_PTR_LIST(name); if (arg_decl) { struct statement *decl = alloc_statement(expr->pos, STMT_DECLARATION); decl->declaration = arg_decl; add_statement(&stmt->stmts, decl); } copy_statement(fn->inline_stmt, stmt); unset_replace_list(fn_symbol_list); evaluate_statement(stmt); fn->expanding = 0; return 1; } void uninline(struct symbol *sym) { struct symbol *fn = sym->ctype.base_type; struct symbol_list *arg_list = fn->arguments; struct symbol *p; sym->symbol_list = create_symbol_list(sym->inline_symbol_list); FOR_EACH_PTR(arg_list, p) { p->replace = p; } END_FOR_EACH_PTR(p); fn->stmt = alloc_statement(fn->pos, STMT_COMPOUND); copy_statement(fn->inline_stmt, fn->stmt); unset_replace_list(sym->symbol_list); unset_replace_list(arg_list); }