Mercurial > octave-nkf
view src/pt-pr-code.cc @ 5102:b04b30d30c66
[project @ 2004-12-28 01:59:05 by jwe]
| author | jwe |
|---|---|
| date | Tue, 28 Dec 2004 01:59:05 +0000 |
| parents | 003bbf6c13d8 |
| children | e35b034d3523 |
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/* Copyright (C) 1996, 1997 John W. Eaton This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #if defined (__GNUG__) && defined (USE_PRAGMA_INTERFACE_IMPLEMENTATION) #pragma implementation #endif #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <cctype> #include <iostream> #include "comment-list.h" #include "error.h" #include "ov-usr-fcn.h" #include "pr-output.h" #include "pt-all.h" void tree_print_code::visit_argument_list (tree_argument_list& lst) { tree_argument_list::iterator p = lst.begin (); while (p != lst.end ()) { tree_expression *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << ", "; } } } void tree_print_code::visit_binary_expression (tree_binary_expression& expr) { indent (); print_parens (expr, "("); tree_expression *op1 = expr.lhs (); if (op1) op1->accept (*this); os << " " << expr.oper () << " "; tree_expression *op2 = expr.rhs (); if (op2) op2->accept (*this); print_parens (expr, ")"); } void tree_print_code::visit_break_command (tree_break_command&) { indent (); os << "break"; } void tree_print_code::visit_colon_expression (tree_colon_expression& expr) { indent (); print_parens (expr, "("); tree_expression *op1 = expr.base (); if (op1) op1->accept (*this); // Stupid syntax. tree_expression *op3 = expr.increment (); if (op3) { os << ":"; op3->accept (*this); } tree_expression *op2 = expr.limit (); if (op2) { os << ":"; op2->accept (*this); } print_parens (expr, ")"); } void tree_print_code::visit_continue_command (tree_continue_command&) { indent (); os << "continue"; } void tree_print_code::visit_decl_command (tree_decl_command& cmd) { indent (); os << cmd.name () << " "; tree_decl_init_list *init_list = cmd.initializer_list (); if (init_list) init_list->accept (*this); } void tree_print_code::visit_decl_elt (tree_decl_elt& cmd) { tree_identifier *id = cmd.ident (); if (id) id->accept (*this); tree_expression *expr = cmd.expression (); if (expr) { os << " = "; expr->accept (*this); } } void tree_print_code::visit_decl_init_list (tree_decl_init_list& lst) { tree_decl_init_list::iterator p = lst.begin (); while (p != lst.end ()) { tree_decl_elt *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << ", "; } } } void tree_print_code::visit_simple_for_command (tree_simple_for_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "for "; tree_expression *lhs = cmd.left_hand_side (); if (lhs) lhs->accept (*this); os << " = "; tree_expression *expr = cmd.control_expr (); if (expr) expr->accept (*this); newline (); tree_statement_list *list = cmd.body (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "endfor"; } void tree_print_code::visit_complex_for_command (tree_complex_for_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "for ["; nesting.push ('['); tree_argument_list *lhs = cmd.left_hand_side (); if (lhs) lhs->accept (*this); nesting.pop (); os << "] = "; tree_expression *expr = cmd.control_expr (); if (expr) expr->accept (*this); newline (); tree_statement_list *list = cmd.body (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "endfor"; } void tree_print_code::visit_octave_user_function (octave_user_function& fcn) { reset (); visit_octave_user_function_header (fcn); tree_statement_list *cmd_list = fcn.body (); if (cmd_list) { increment_indent_level (); cmd_list->accept (*this); decrement_indent_level (); } visit_octave_user_function_trailer (fcn); } void tree_print_code::visit_octave_user_function_header (octave_user_function& fcn) { octave_comment_list *leading_comment = fcn.leading_comment (); if (leading_comment) { print_comment_list (leading_comment); newline (); } indent (); os << "function "; tree_parameter_list *ret_list = fcn.return_list (); if (ret_list) { bool takes_var_return = fcn.takes_var_return (); int len = ret_list->length (); if (len > 1 || takes_var_return) { os << "["; nesting.push ('['); } ret_list->accept (*this); if (takes_var_return) { if (len > 0) os << ", "; os << "..."; } if (len > 1 || takes_var_return) { nesting.pop (); os << "]"; } os << " = "; } std::string fcn_name = fcn.name (); os << (fcn_name.empty () ? std::string ("(empty)") : fcn_name) << " "; tree_parameter_list *param_list = fcn.parameter_list (); if (param_list) { bool takes_varargs = fcn.takes_varargs (); int len = param_list->length (); if (len > 0 || takes_varargs) { os << "("; nesting.push ('('); } param_list->accept (*this); if (takes_varargs) { if (len > 0) os << ", "; os << "..."; } if (len > 0 || takes_varargs) { nesting.pop (); os << ")"; newline (); } } else { os << "()"; newline (); } } void tree_print_code::visit_octave_user_function_trailer (octave_user_function& fcn) { print_indented_comment (fcn.trailing_comment ()); indent (); os << "endfunction"; newline (); } void tree_print_code::visit_identifier (tree_identifier& id) { indent (); print_parens (id, "("); std::string nm = id.name (); os << (nm.empty () ? std::string ("(empty)") : nm); print_parens (id, ")"); } void tree_print_code::visit_if_clause (tree_if_clause& cmd) { tree_expression *expr = cmd.condition (); if (expr) expr->accept (*this); newline (); tree_statement_list *list = cmd.commands (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } } void tree_print_code::visit_if_command (tree_if_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "if "; tree_if_command_list *list = cmd.cmd_list (); if (list) list->accept (*this); print_indented_comment (cmd.trailing_comment ()); indent (); os << "endif"; } void tree_print_code::visit_if_command_list (tree_if_command_list& lst) { tree_if_command_list::iterator p = lst.begin (); bool first_elt = true; while (p != lst.end ()) { tree_if_clause *elt = *p++; if (elt) { if (! first_elt) { print_indented_comment (elt->leading_comment ()); indent (); if (elt->is_else_clause ()) os << "else"; else os << "elseif "; } elt->accept (*this); } first_elt = false; } } void tree_print_code::visit_index_expression (tree_index_expression& expr) { indent (); print_parens (expr, "("); bool expr_has_parens = false; tree_expression *e = expr.expression (); if (e) { e->accept (*this); expr_has_parens = e->is_postfix_indexed (); } std::list<tree_argument_list *> arg_lists = expr.arg_lists (); std::string type_tags = expr.type_tags (); std::list<string_vector> arg_names = expr.arg_names (); int n = type_tags.length (); std::list<tree_argument_list *>::iterator p_arg_lists = arg_lists.begin (); std::list<string_vector>::iterator p_arg_names = arg_names.begin (); for (int i = 0; i < n; i++) { switch (type_tags[i]) { case '(': { char nc = nesting.top (); if ((nc == '[' || nc == '{') && expr.paren_count () == 0) os << "("; else os << " ("; nesting.push ('('); tree_argument_list *l = *p_arg_lists; if (l) l->accept (*this); nesting.pop (); os << ")"; } break; case '{': { char nc = nesting.top (); if ((nc == '[' || nc == '{') && expr.paren_count () == 0) os << "{"; else os << " {"; // We only care about whitespace inside [] and {} when we // are defining matrix and cell objects, not when indexing. nesting.push ('('); tree_argument_list *l = *p_arg_lists; if (l) l->accept (*this); nesting.pop (); os << "}"; } break; case '.': { string_vector nm = *p_arg_names; assert (nm.length () == 1); os << "." << nm(0); } break; default: panic_impossible (); } p_arg_lists++; p_arg_names++; } print_parens (expr, ")"); } void tree_print_code::visit_matrix (tree_matrix& lst) { indent (); print_parens (lst, "("); os << "["; nesting.push ('['); tree_matrix::iterator p = lst.begin (); while (p != lst.end ()) { tree_argument_list *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << "; "; } } nesting.pop (); os << "]"; print_parens (lst, ")"); } void tree_print_code::visit_cell (tree_cell& lst) { indent (); print_parens (lst, "("); os << "{"; nesting.push ('{'); tree_cell::iterator p = lst.begin (); while (p != lst.end ()) { tree_argument_list *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << "; "; } } nesting.pop (); os << "}"; print_parens (lst, ")"); } void tree_print_code::visit_multi_assignment (tree_multi_assignment& expr) { indent (); print_parens (expr, "("); tree_argument_list *lhs = expr.left_hand_side (); if (lhs) { int len = lhs->length (); if (len > 1) { os << "["; nesting.push ('['); } lhs->accept (*this); if (len > 1) { nesting.pop (); os << "]"; } } os << " " << expr.oper () << " "; tree_expression *rhs = expr.right_hand_side (); if (rhs) rhs->accept (*this); print_parens (expr, ")"); } void tree_print_code::visit_no_op_command (tree_no_op_command& cmd) { indent (); os << cmd.original_command (); } void tree_print_code::visit_constant (tree_constant& val) { indent (); print_parens (val, "("); val.print_raw (os, true, print_original_text); print_parens (val, ")"); } void tree_print_code::visit_fcn_handle (tree_fcn_handle& fh) { indent (); print_parens (fh, "("); fh.print_raw (os, true, print_original_text); print_parens (fh, ")"); } void tree_print_code::visit_parameter_list (tree_parameter_list& lst) { tree_parameter_list::iterator p = lst.begin (); while (p != lst.end ()) { tree_identifier *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << ", "; } } } void tree_print_code::visit_postfix_expression (tree_postfix_expression& expr) { indent (); print_parens (expr, "("); tree_expression *e = expr.operand (); if (e) e->accept (*this); os << expr.oper (); print_parens (expr, ")"); } void tree_print_code::visit_prefix_expression (tree_prefix_expression& expr) { indent (); print_parens (expr, "("); os << expr.oper (); tree_expression *e = expr.operand (); if (e) e->accept (*this); print_parens (expr, ")"); } void tree_print_code::visit_return_command (tree_return_command&) { indent (); os << "return"; } void tree_print_code::visit_return_list (tree_return_list& lst) { tree_return_list::iterator p = lst.begin (); while (p != lst.end ()) { tree_index_expression *elt = *p++; if (elt) { elt->accept (*this); if (p != lst.end ()) os << ", "; } } } void tree_print_code::visit_simple_assignment (tree_simple_assignment& expr) { indent (); print_parens (expr, "("); tree_expression *lhs = expr.left_hand_side (); if (lhs) lhs->accept (*this); os << " " << expr.oper () << " "; tree_expression *rhs = expr.right_hand_side (); if (rhs) rhs->accept (*this); print_parens (expr, ")"); } void tree_print_code::visit_statement (tree_statement& stmt) { print_comment_list (stmt.comment_text ()); tree_command *cmd = stmt.command (); if (cmd) { cmd->accept (*this); if (! stmt.print_result ()) { os << ";"; newline (" "); } else newline (); } else { tree_expression *expr = stmt.expression (); if (expr) { expr->accept (*this); if (! stmt.print_result ()) { os << ";"; newline (" "); } else newline (); } } } void tree_print_code::visit_statement_list (tree_statement_list& lst) { for (tree_statement_list::iterator p = lst.begin (); p != lst.end (); p++) { tree_statement *elt = *p; if (elt) elt->accept (*this); } } void tree_print_code::visit_switch_case (tree_switch_case& cs) { print_comment_list (cs.leading_comment ()); indent (); if (cs.is_default_case ()) os << "otherwise"; else os << "case "; tree_expression *label = cs.case_label (); if (label) label->accept (*this); newline (); tree_statement_list *list = cs.commands (); if (list) { increment_indent_level (); list->accept (*this); newline (); decrement_indent_level (); } } void tree_print_code::visit_switch_case_list (tree_switch_case_list& lst) { tree_switch_case_list::iterator p = lst.begin (); while (p != lst.end ()) { tree_switch_case *elt = *p++; if (elt) elt->accept (*this); } } void tree_print_code::visit_switch_command (tree_switch_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "switch "; tree_expression *expr = cmd.switch_value (); if (expr) expr->accept (*this); newline (); tree_switch_case_list *list = cmd.case_list (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.leading_comment ()); indent (); os << "endswitch"; } void tree_print_code::visit_try_catch_command (tree_try_catch_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "try"; newline (); tree_statement_list *try_code = cmd.body (); if (try_code) { increment_indent_level (); try_code->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.middle_comment ()); indent (); os << "catch"; newline (); tree_statement_list *catch_code = cmd.cleanup (); if (catch_code) { increment_indent_level (); catch_code->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "end_try_catch"; } void tree_print_code::visit_unwind_protect_command (tree_unwind_protect_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "unwind_protect"; newline (); tree_statement_list *unwind_protect_code = cmd.body (); if (unwind_protect_code) { increment_indent_level (); unwind_protect_code->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.middle_comment ()); indent (); os << "unwind_protect_cleanup"; newline (); tree_statement_list *cleanup_code = cmd.cleanup (); if (cleanup_code) { increment_indent_level (); cleanup_code->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "end_unwind_protect"; } void tree_print_code::visit_while_command (tree_while_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "while "; tree_expression *expr = cmd.condition (); if (expr) expr->accept (*this); newline (); tree_statement_list *list = cmd.body (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "endwhile"; } void tree_print_code::visit_do_until_command (tree_do_until_command& cmd) { print_comment_list (cmd.leading_comment ()); indent (); os << "do"; newline (); tree_statement_list *list = cmd.body (); if (list) { increment_indent_level (); list->accept (*this); decrement_indent_level (); } print_indented_comment (cmd.trailing_comment ()); indent (); os << "until"; tree_expression *expr = cmd.condition (); if (expr) expr->accept (*this); newline (); } // Each print_code() function should call this before printing // anything. // // This doesn't need to be fast, but isn't there a better way? void tree_print_code::indent (void) { assert (curr_print_indent_level >= 0); if (printing_newlines) { if (beginning_of_line) { os << prefix; for (int i = 0; i < curr_print_indent_level; i++) os << " "; beginning_of_line = false; } } } // All print_code() functions should use this to print new lines. void tree_print_code::newline (const char *alt_txt) { os << (printing_newlines ? "\n" : alt_txt); beginning_of_line = true; } // For ressetting print_code state. void tree_print_code::reset (void) { beginning_of_line = true; curr_print_indent_level = 0; while (nesting.top () != 'n') nesting.pop (); } void tree_print_code::print_parens (const tree_expression& expr, const char *txt) { int n = expr.paren_count (); for (int i = 0; i < n; i++) os << txt; } void tree_print_code::print_comment_elt (const octave_comment_elt& elt) { bool printed_something = false; bool prev_char_was_newline = false; std::string comment = elt.text (); size_t len = comment.length (); size_t i = 0; while (i < len && comment[i++] == '\n') ; /* Skip leading new lines. */ i--; while (i < len) { char c = comment[i++]; if (c == '\n') { if (prev_char_was_newline) os << "##"; newline (); prev_char_was_newline = true; } else { if (beginning_of_line) { printed_something = true; indent (); os << "##"; if (! (isspace (c) || c == '!')) os << " "; } os << (char) c; prev_char_was_newline = false; } } if (printed_something && ! beginning_of_line) newline (); } void tree_print_code::print_comment_list (octave_comment_list *comment_list) { if (comment_list) { octave_comment_list::iterator p = comment_list->begin (); while (p != comment_list->end ()) { octave_comment_elt elt = *p++; print_comment_elt (elt); if (p != comment_list->end ()) newline (); } } } void tree_print_code::print_indented_comment (octave_comment_list *comment_list) { increment_indent_level (); print_comment_list (comment_list); decrement_indent_level (); } /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */