// Filename: ppCommandFile.cxx // Created by: drose (25Sep00) // //////////////////////////////////////////////////////////////////// #include "ppCommandFile.h" #include "ppScope.h" #include "ppNamedScopes.h" #include "ppSubroutine.h" #include "tokenize.h" #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_UTIME_H #include #endif #ifdef HAVE_SYS_UTIME_H #include #endif #include #include // for tempnam() #include #include static const string begin_comment(BEGIN_COMMENT); //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::IfNesting::Constructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile::IfNesting:: IfNesting(IfState state) : _state(state) { _block = (PPCommandFile::BlockNesting *)NULL; _next = (PPCommandFile::IfNesting *)NULL; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::IfNesting::push // Access: Public // Description: Adds this IfNesting object to the top of the // nesting stack. //////////////////////////////////////////////////////////////////// void PPCommandFile::IfNesting:: push(PPCommandFile *file) { _block = file->_block_nesting; _next = file->_if_nesting; file->_if_nesting = this; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::IfNesting::pop // Access: Public // Description: Removes this IfNesting object from the top of the // nesting stack, and restores the command file's // nesting state. //////////////////////////////////////////////////////////////////// void PPCommandFile::IfNesting:: pop(PPCommandFile *file) { assert(file->_if_nesting == this); file->_if_nesting = _next; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::WriteState::Constructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile::WriteState:: WriteState() { _out = NULL; _format = WF_collapse; _last_blank = true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::WriteState::Copy Constructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile::WriteState:: WriteState(const WriteState ©) : _out(copy._out), _format(copy._format), _last_blank(copy._last_blank) { } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::WriteState::write_line // Access: Public // Description: //////////////////////////////////////////////////////////////////// bool PPCommandFile::WriteState:: write_line(const string &line) { if (_out == (ostream *)NULL || _format == WF_error) { if (!line.empty()) { cerr << "Ignoring: " << line << "\n"; } return true; } else { switch (_format) { case WF_straight: (*_out) << line << "\n"; return true; case WF_collapse: return write_collapse_line(line); case WF_makefile: return write_makefile_line(line); } cerr << "Unsupported write format: " << (int)_format << "\n"; errors_occurred = true; return false; } } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::WriteState::write_collapse_line // Access: Public // Description: //////////////////////////////////////////////////////////////////// bool PPCommandFile::WriteState:: write_collapse_line(const string &line) { if (line.empty()) { if (!_last_blank) { (*_out) << "\n"; _last_blank = true; } } else { _last_blank = false; (*_out) << line << "\n"; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::WriteState::write_makefile_line // Access: Public // Description: //////////////////////////////////////////////////////////////////// bool PPCommandFile::WriteState:: write_makefile_line(const string &line) { if (line.length() <= 72) { return write_collapse_line(line); } _last_blank = false; // In makefile mode, long variable assignment lines are folded after // the assignment. vector words; tokenize_whitespace(line, words); if (words.size() > 2 && (words[1] == "=" || words[1] == ":")) { // This appears to be a variable assignment or a dependency rule; // fold it. (*_out) << words[0] << " " << words[1]; vector::const_iterator wi; int col = 80; wi = words.begin() + 2; while (wi != words.end()) { col += (*wi).length() + 1; if (col > 72) { (*_out) << " \\\n "; col = 4 + (*wi).length(); } (*_out) << " " << (*wi); ++wi; } (*_out) << "\n"; } else { // This is not a variable assignment, so just write it out. (*_out) << line << "\n"; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::BlockNesting::Constructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile::BlockNesting:: BlockNesting(BlockState state, const string &name) : _state(state), _name(name) { _if = (PPCommandFile::IfNesting *)NULL; _write_state = (PPCommandFile::WriteState *)NULL; _scope = (PPScope *)NULL; _flags = 0; _next = (PPCommandFile::BlockNesting *)NULL; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::BlockNesting::push // Access: Public // Description: Adds this BlockNesting object to the top of the // nesting stack. //////////////////////////////////////////////////////////////////// void PPCommandFile::BlockNesting:: push(PPCommandFile *file) { _if = file->_if_nesting; _write_state = file->_write_state; _scope = file->_scope; _next = file->_block_nesting; file->_block_nesting = this; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::BlockNesting::pop // Access: Public // Description: Removes this BlockNesting object from the top of the // nesting stack, and restores the command file's // nesting state. //////////////////////////////////////////////////////////////////// void PPCommandFile::BlockNesting:: pop(PPCommandFile *file) { assert(file->_block_nesting == this); if (file->_write_state != _write_state) { delete file->_write_state; file->_write_state = _write_state; } file->_scope = _scope; file->_block_nesting = _next; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::Constructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile:: PPCommandFile(PPScope *scope) { _native_scope = scope; _scope = scope; _got_command = false; _in_for = false; _if_nesting = (IfNesting *)NULL; _block_nesting = (BlockNesting *)NULL; _write_state = new WriteState; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::Destructor // Access: Public, Virtual // Description: //////////////////////////////////////////////////////////////////// PPCommandFile:: ~PPCommandFile() { delete _write_state; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::set_output // Access: Public // Description: Changes the main output stream that will be written // to when text appears outside of a #output .. #end // block. This is cout by default. //////////////////////////////////////////////////////////////////// void PPCommandFile:: set_output(ostream *out) { _write_state->_out = out; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::set_scope // Access: Public // Description: Changes the command file to use the indicated scope. // This scope will *not* be deleted when the command // file destructs. //////////////////////////////////////////////////////////////////// void PPCommandFile:: set_scope(PPScope *scope) { _native_scope = scope; _scope = scope; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::get_scope // Access: Public // Description: Returns the current scope associated with the command // file. This may change as the command file is // processed (e.g. between #begin .. #end sequences), // and it may or may not be tied to the life of the // PPCommandFile itself. //////////////////////////////////////////////////////////////////// PPScope *PPCommandFile:: get_scope() const { return _scope; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::read_file // Access: Public // Description: Reads input from the given filename. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: read_file(Filename filename) { filename.set_text(); ifstream in; if (!filename.open_read(in)) { cerr << "Unable to open " << filename << ".\n"; errors_occurred = true; return false; } if (verbose) { cerr << "Reading (cmd) \"" << filename << "\"\n"; } return read_stream(in, filename); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::read_stream // Access: Public // Description: Reads input from the given stream. Each line is // read, commands are processed, variables are expanded, // and the resulting output is sent to write_line() // one line at a time. The return value is true if the // entire file is read with no errors, false if there is // some problem. // // The filename is just informational; it is used to // update the variables like THISFILENAME and // THISDIRPREFIX as appropriate, and to report errors to // the user. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: read_stream(istream &in, const string &filename) { PushFilename pushed(_scope, filename); if (!read_stream(in)) { if (!in.eof()) { cerr << "Error reading " << filename << ".\n"; errors_occurred = true; } return false; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::read_stream // Access: Public // Description: Reads input from the given stream. Each line is // read, commands are processed, variables are expanded, // and the resulting output is sent to write_line() // one line at a time. The return value is true if the // entire file is read with no errors, false if there is // some problem. // // This flavor of read_stream() does not take a // filename. It does not, therefore, adjust // THISFILENAME and THISDIRPREFIX. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: read_stream(istream &in) { string line; getline(in, line); begin_read(); while (!in.fail() && !in.eof()) { if (!read_line(line)) { return false; } getline(in, line); } if (!end_read()) { return false; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::begin_read // Access: Public // Description: Resets to the beginning-of-the-stream state, in // preparation for a sequence of read_line() calls. //////////////////////////////////////////////////////////////////// void PPCommandFile:: begin_read() { assert(_if_nesting == (IfNesting *)NULL); assert(_block_nesting == (BlockNesting *)NULL); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::read_line // Access: Public // Description: Reads one line at a time, as if from the input // stream. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: read_line(string line) { // First things first: strip off any comment in the line. // We only recognize comments that are proceeded by whitespace, or // that start at the beginning of the line. size_t comment = line.find(begin_comment); while (comment != string::npos && !(comment == 0 || isspace(line[comment - 1]))) { comment = line.find(begin_comment, comment + begin_comment.length()); } if (comment != string::npos) { // Also strip any whitespace leading up to the comment. while (comment > 0 && isspace(line[comment - 1])) { comment--; } line = line.substr(0, comment); } // If the comment was at the beginning of the line, ignore the whole // line, including its whitespace. if (comment != 0) { // We also strip off whitespace at the end of the line, since this // is generally invisible and almost always just leads to trouble. size_t eol = line.length(); while (eol > 0 && (isspace(line[eol - 1]) || line[eol - 1] == '\r')) { eol--; } line = line.substr(0, eol); if (_in_for) { // Save up the lines for later execution if we're within a #forscopes. _saved_lines.push_back(line); } if (_got_command) { return handle_command(line); } else { // Find the beginning of the line--skip initial whitespace. size_t p = 0; while (p < line.length() && isspace(line[p])) { p++; } if (p == line.length()) { // The line is empty. Make it truly empty. line = ""; } else { if (((p+1) < line.length()) && (line[p] == COMMAND_PREFIX) && isalpha(line[p + 1])) { // This is a special command. return handle_command(line.substr(p + 1)); } } if (!_in_for && !failed_if()) { if (line.length() > p + 1 && line[p + 1] == COMMAND_PREFIX) { // double prefix at start of line indicates echo single prefix, like '\\' in C line.erase(0, 1); } return _write_state->write_line(_scope->expand_string(line)); } } } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::end_read // Access: Public // Description: Finishes up the input stream, after a sequence of // read_line() calls. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: end_read() { bool okflag = true; if (_if_nesting != (IfNesting *)NULL) { cerr << "Unclosed if\n"; errors_occurred = true; _if_nesting = (IfNesting *)NULL; okflag = false; } if (_block_nesting != (BlockNesting *)NULL) { switch (_block_nesting->_state) { case BS_begin: cerr << "Unclosed begin " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_while: case BS_nested_while: cerr << "Unclosed while " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_forscopes: case BS_nested_forscopes: cerr << "Unclosed forscopes " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_foreach: case BS_nested_foreach: cerr << "Unclosed foreach " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_formap: case BS_nested_formap: cerr << "Unclosed formap " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_defsub: cerr << "Unclosed defsub " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_defun: cerr << "Unclosed defun " << _block_nesting->_name << "\n"; errors_occurred = true; break; case BS_output: cerr << "Unclosed output " << _block_nesting->_name << "\n"; errors_occurred = true; break; } _block_nesting = (BlockNesting *)NULL; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_command // Access: Protected // Description: Handles a macro command. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_command(const string &line) { if (_got_command) { // If we were still processing a command from last time, keep // going; this line is just a continuation. But skip any initial // whitespace. size_t p = 0; while (p < line.length() && isspace(line[p])) { p++; } _params += ' '; _params += line.substr(p); } else { // This is the first line of a new command. // Pull off the first word and the rest of the line. size_t p = 0; while (p < line.length() && !isspace(line[p])) { p++; } _command = line.substr(0, p); // Skip whitespace between the command and its arguments. while (p < line.length() && isspace(line[p])) { p++; } _params = line.substr(p); } if (!_params.empty() && _params[_params.length() - 1] == '\\') { // If the line ends with a backslash, there's more to come before // we can process the command. _got_command = true; // Truncate off the backslash, and any whitespace before it. size_t p = _params.length() - 1; while (p > 0 && isspace(_params[p - 1])) { p--; } _params = _params.substr(0, p); return true; } // We're completely done scanning the command now. _got_command = false; if (_command == "if") { return handle_if_command(); } else if (_command == "elif") { return handle_elif_command(); } else if (_command == "else") { return handle_else_command(); } else if (_command == "endif") { return handle_endif_command(); } else if (failed_if()) { // If we're in the middle of a failed #if, we ignore all commands // except for the if-related commands, above. return true; } else if (_command == "begin") { return handle_begin_command(); } else if (_command == "while") { return handle_while_command(); } else if (_command == "for") { return handle_for_command(); } else if (_command == "forscopes") { return handle_forscopes_command(); } else if (_command == "foreach") { return handle_foreach_command(); } else if (_command == "formap") { return handle_formap_command(); } else if (_command == "defsub") { return handle_defsub_command(true); } else if (_command == "defun") { return handle_defsub_command(false); } else if (_command == "output") { return handle_output_command(); } else if (_command == "end") { return handle_end_command(); } else if (_in_for) { // If we're currently saving up lines within a block sequence, we // ignore all commands except for the block-related commands, // above. return true; } else if (_command == "format") { return handle_format_command(); } else if (_command == "print") { return handle_print_command(); } else if (_command == "printvar") { return handle_printvar_command(); } else if (_command == "include") { return handle_include_command(); } else if (_command == "sinclude") { return handle_sinclude_command(); } else if (_command == "copy") { return handle_copy_command(); } else if (_command == "call") { return handle_call_command(); } else if (_command == "error") { return handle_error_command(); } else if (_command == "mkdir") { return handle_mkdir_command(); } else if (_command == "defer") { return handle_defer_command(); } else if (_command == "define") { return handle_define_command(); } else if (_command == "set") { return handle_set_command(); } else if (_command == "map") { return handle_map_command(); } else if (_command == "addmap") { return handle_addmap_command(); } else if (_command == "push") { return handle_push_command(); } cerr << "Invalid command: " << COMMAND_PREFIX << _command << "\n"; errors_occurred = true; return false; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_if_command // Access: Protected // Description: Handles the #if command: conditionally evaluate the // following code. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_if_command() { if (failed_if()) { // If we're *already* inside a failed if, we don't have to // evaluate this one, but we do need to record the nesting level. IfNesting *nest = new IfNesting(IS_done); nest->push(this); } else { // If the parameter string evaluates to empty, the case is false. // Otherwise the case is true. However, if we're currently // scanning #forscopes or something, we don't evaluate this at // all, because it doesn't matter. bool is_empty = true; if (!_in_for) { _params = _scope->expand_string(_params); string::const_iterator si; for (si = _params.begin(); si != _params.end() && is_empty; ++si) { is_empty = isspace(*si); } } IfState state = is_empty ? IS_off : IS_on; IfNesting *nest = new IfNesting(state); nest->push(this); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_elif_command // Access: Protected // Description: Handles the #elif command: conditionally evaluate // the following code, following a failed #if command. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_elif_command() { if (_if_nesting == (IfNesting *)NULL) { cerr << "elif encountered without if.\n"; errors_occurred = true; return false; } if (_if_nesting->_state == IS_else) { cerr << "elif encountered after else.\n"; errors_occurred = true; return false; } if (_if_nesting->_state == IS_on || _if_nesting->_state == IS_done) { // If we passed the #if above, we don't need to evaluate the #elif. _if_nesting->_state = IS_done; return true; } // If the parameter string evaluates to empty, the case is false. // Otherwise the case is true. bool is_empty = true; if (!_in_for) { _params = _scope->expand_string(_params); string::const_iterator si; for (si = _params.begin(); si != _params.end() && is_empty; ++si) { is_empty = isspace(*si); } } _if_nesting->_state = is_empty ? IS_off : IS_on; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_else_command // Access: Protected // Description: Handles the #else command: evaluate the following // code following a failed #if command. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_else_command() { if (_if_nesting == (IfNesting *)NULL) { cerr << "else encountered without if.\n"; errors_occurred = true; return false; } if (_if_nesting->_state == IS_else) { cerr << "else encountered after else.\n"; errors_occurred = true; return false; } if (_if_nesting->_state == IS_on || _if_nesting->_state == IS_done) { _if_nesting->_state = IS_done; return true; } _if_nesting->_state = IS_else; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_endif_command // Access: Protected // Description: Handles the #endif command: close a preceeding #if // command. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_endif_command() { if (_if_nesting == (IfNesting *)NULL) { cerr << "endif encountered without if.\n"; errors_occurred = true; return false; } IfNesting *nest = _if_nesting; nest->pop(this); if (nest->_block != _block_nesting) { if (nest->_block != (BlockNesting *)NULL) { cerr << "If block not closed within scoping block " << nest->_block->_name << ".\n"; errors_occurred = true; } else { cerr << "If block not closed within scoping block " << _block_nesting->_name << ".\n"; errors_occurred = true; } return false; } delete nest; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_begin_command // Access: Protected // Description: Handles the #begin command: begin a named scope // block. The variables defined between this command // and the corresponding #end command will be local to // this named scope. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_begin_command() { string name = trim_blanks(_params); BlockNesting *nest = new BlockNesting(BS_begin, name); if (contains_whitespace(name)) { cerr << "Attempt to define scope named \"" << name << "\".\nScope names may not contain whitespace.\n"; errors_occurred = true; return false; } if (name.find(SCOPE_DIRNAME_SEPARATOR) != string::npos) { cerr << "Attempt to define scope named \"" << name << "\".\nScope names may not contain the '" << SCOPE_DIRNAME_SEPARATOR << "' character.\n"; errors_occurred = true; return false; } nest->push(this); PPScope *named_scope = _scope->get_named_scopes()->make_scope(name); named_scope->set_parent(_scope); _scope = named_scope; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_while_command // Access: Protected // Description: Handles the #while command: repeat a block of // commands while a condition is true (nonempty). // Unlike many of the other block commands, this does // not begin a new scope. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_while_command() { BlockState state = _in_for ? BS_nested_while : BS_while; string name = trim_blanks(_params); BlockNesting *nest = new BlockNesting(state, name); nest->push(this); if (!_in_for) { _in_for = true; _saved_lines.clear(); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_for_command // Access: Protected // Description: Handles the #for command: repeat a block of // commands with a loop variable iterating over a range // of numeric values. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_for_command() { // We get the name of the variable out first. size_t p = _scope->scan_to_whitespace(_params); string name = _params.substr(0, p); if (name.empty()) { cerr << "#for without varname\n"; errors_occurred = true; return false; } // The rest is the comma-delimited range of values. vector words; _scope->tokenize_params(_params.substr(p), words, true); if (words.size() != 2 && words.size() != 3) { cerr << "Invalid numeric range: '" << _params.substr(p) << "' for #for " << name << "\n"; errors_occurred = true; return false; } BlockState state = _in_for ? BS_nested_for : BS_for; BlockNesting *nest = new BlockNesting(state, name); nest->push(this); if (!_in_for) { _in_for = true; _saved_lines.clear(); nest->_words.swap(words); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_forscopes_command // Access: Protected // Description: Handles the #forscopes command: interpret all the lines // between this command and the corresponding #end // command once for each occurrence of a named scope // with the given name. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_forscopes_command() { BlockState state = _in_for ? BS_nested_forscopes : BS_forscopes; string name = trim_blanks(_params); BlockNesting *nest = new BlockNesting(state, name); nest->push(this); if (!_in_for) { _in_for = true; _saved_lines.clear(); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_foreach_command // Access: Protected // Description: Handles the #foreach command: interpret all the lines // between this command and the corresponding #end // command once for each word in the argument. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_foreach_command() { // Get the parameters of the foreach command. The first word is the // name of the variable to substitute in (and which should appear on // the matching #end command), and the remaining words are the // values to substitute in. vector words; tokenize_whitespace(_scope->expand_string(_params), words); if (words.empty()) { cerr << "#foreach requires at least one parameter.\n"; errors_occurred = true; return false; } string variable_name = words.front(); BlockState state = _in_for ? BS_nested_foreach : BS_foreach; BlockNesting *nest = new BlockNesting(state, variable_name); nest->push(this); // We insert in all but the first word in the words vector. nest->_words.insert(nest->_words.end(), words.begin() + 1, words.end()); if (!_in_for) { _in_for = true; _saved_lines.clear(); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_formap_command // Access: Protected // Description: Handles the #formap command: interpret all the lines // between this command and the corresponding #end // command once for each key in the map, and also within // the corresponding scope of that particular key. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_formap_command() { // Get the parameters of the formap command. The first word is the // name of the variable to substitute in (and which should appear on // the matching #end command), and the second word is the name of // the map variable. vector words; tokenize_whitespace(_scope->expand_string(_params), words); if (words.size() != 2) { cerr << "#formap requires exactly two parameters.\n"; errors_occurred = true; return false; } string variable_name = words.front(); BlockState state = _in_for ? BS_nested_formap : BS_formap; BlockNesting *nest = new BlockNesting(state, words[0]); nest->push(this); nest->_words.push_back(words[1]); if (!_in_for) { _in_for = true; _saved_lines.clear(); } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_defsub_command // Access: Protected // Description: Handles the #defsub (or #defun) command: save all the // lines between this command and the matching #end as a // callable subroutine to be invoked by a later #call // command. If is_defsub is false, it means this // subroutine was actually defined via a #defun command, // so it is to be invoked by a later variable reference, // instead of by a #call command. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_defsub_command(bool is_defsub) { string command = (is_defsub) ? "#defsub" : "#defun"; // The first word of the parameter list is the subroutine name; the // rest is the comma-separated list of formal parameter names. // Pull off the first word and the rest of the params. size_t p = 0; while (p < _params.length() && !isspace(_params[p])) { p++; } string subroutine_name = trim_blanks(_params.substr(0, p)); if (subroutine_name.empty()) { cerr << command << " requires at least one parameter.\n"; errors_occurred = true; return false; } vector formals; _scope->tokenize_params(_params.substr(p), formals, false); vector::const_iterator fi; for (fi = formals.begin(); fi != formals.end(); ++fi) { if (!is_valid_formal(*fi)) { cerr << command << " " << subroutine_name << ": invalid formal parameter name '" << (*fi) << "'\n"; errors_occurred = true; return false; } } if (_in_for) { cerr << command << " may not appear within another block scoping command like\n" << "#forscopes, #foreach, #formap, #defsub, or #defun.\n"; errors_occurred = true; return false; } BlockState state = is_defsub ? BS_defsub : BS_defun; BlockNesting *nest = new BlockNesting(state, subroutine_name); nest->push(this); nest->_words.swap(formals); _in_for = true; _saved_lines.clear(); return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_output_command // Access: Protected // Description: Handles the #output command: all text between this // command and the corresponding #end command will be // sent to the indicated output file. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_output_command() { // We must get the filename out (the first parameter) without // expanding it, because it might involve a string that has to be // expanded later. size_t p = _scope->scan_to_whitespace(_params); string name = _params.substr(0, p); if (name.empty()) { cerr << "#output command requires one parameter.\n"; errors_occurred = true; return false; } // Now get the remaining parameters out; these we will expand immediately. vector words; tokenize_whitespace(_scope->expand_string(_params.substr(p)), words); BlockNesting *nest = new BlockNesting(BS_output, name); // Also check the output flags. for (int i = 0; i < (int)words.size(); i++) { if (words[i] == "notouch") { nest->_flags |= OF_notouch; } else if (words[i] == "binary") { nest->_flags |= OF_binary; } else { cerr << "Invalid output flag: " << words[i] << "\n"; errors_occurred = true; } } nest->push(this); if (!_in_for) { Filename filename = trim_blanks(_scope->expand_string(nest->_name)); if (filename.empty()) { cerr << "Attempt to output to empty filename\n"; errors_occurred = true; return false; } if (filename.is_local()) { string prefix = _scope->expand_variable("DIRPREFIX"); filename = Filename(prefix, filename); } nest->_params = filename; // Generate an in-memory copy of the file first. _write_state = new WriteState(*_write_state); _write_state->_out = &nest->_output; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_end_command // Access: Protected // Description: Handles the #end command. This closes a number of // different kinds of blocks, like #begin and #forscopes. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_end_command() { if (_block_nesting == (BlockNesting *)NULL) { cerr << "Unmatched end " << _params << ".\n"; errors_occurred = true; return false; } // We don't expand the closing name string, because we didn't expand // the opening string. (This is especially true for an #output // statement. On some of the other statements, we might have // inadvertently expanded this string, but probably that was a // mistake; and there's no reason for programmers to take advantage // of an expansion there.) string name = trim_blanks(_params); if (name != _block_nesting->_name) { cerr << "end " << name << " encountered where end " << _block_nesting->_name << " expected.\n"; errors_occurred = true; return false; } BlockNesting *nest = _block_nesting; nest->pop(this); if (nest->_if != _if_nesting) { cerr << "If block not closed within scoping block " << name << ".\n"; errors_occurred = true; return false; } if (nest->_state == BS_while) { // Now replay all of the saved lines. _in_for = false; if (!replay_while(nest->_name)) { return false; } } else if (nest->_state == BS_for) { // Now replay all of the saved lines. _in_for = false; if (!replay_for(nest->_name, nest->_words)) { return false; } } else if (nest->_state == BS_forscopes) { // Now replay all of the saved lines. _in_for = false; if (!replay_forscopes(nest->_name)) { return false; } } else if (nest->_state == BS_foreach) { // Now replay all of the saved lines. _in_for = false; if (!replay_foreach(nest->_name, nest->_words)) { return false; } } else if (nest->_state == BS_formap) { // Now replay all of the saved lines. _in_for = false; assert(nest->_words.size() == 1); if (!replay_formap(nest->_name, nest->_words[0])) { return false; } } else if (nest->_state == BS_defsub || nest->_state == BS_defun) { // Save all of the saved lines as a named subroutine. _in_for = false; PPSubroutine *sub = new PPSubroutine; sub->_formals.swap(nest->_words); sub->_lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an // #end command that spans multiple lines. Don't do that. assert(!sub->_lines.empty()); sub->_lines.pop_back(); if (nest->_state == BS_defsub) { PPSubroutine::define_sub(nest->_name, sub); } else { PPSubroutine::define_func(nest->_name, sub); } } else if (nest->_state == BS_output) { if (!_in_for) { if (!nest->_output) { cerr << "Error while writing " << nest->_params << "\n"; errors_occurred = true; return false; } // Now compare the file we generated to the file that's already // there, if there is one. #ifdef HAVE_SSTREAM string generated_file = nest->_output.str(); #else nest->_output << ends; char *c_str = nest->_output.str(); string generated_file = c_str; delete[] c_str; #endif // HAVE_SSTREAM if (!compare_output(generated_file, nest->_params, (nest->_flags & OF_notouch) != 0, (nest->_flags & OF_binary) != 0)) { return false; } } } delete nest; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_format_command // Access: Protected // Description: Handles the #format command: change the formatting // mode of lines as they are output. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_format_command() { _params = trim_blanks(_scope->expand_string(_params)); if (_params == "straight") { _write_state->_format = WF_straight; } else if (_params == "collapse") { _write_state->_format = WF_collapse; } else if (_params == "makefile") { _write_state->_format = WF_makefile; } else { cerr << "Ignoring invalid write format: " << _params << "\n"; errors_occurred = true; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_print_command // Access: Protected // Description: Handles the #print command: immediately output the // arguments to this line to standard error. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_print_command() { cerr << _scope->expand_string(_params) << "\n"; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_printvar_command // Access: Protected // Description: Writes the literal contents of the named variable(s) // (the variables are named directly without enclosing // $[ ... ] syntax) to cerr, for debugging. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_printvar_command() { size_t p = 0; while (p < _params.length()) { // Pull off the next varname. size_t q = _scope->scan_to_whitespace(_params, p); string varname = trim_blanks(_scope->expand_string(_params.substr(p, q - p))); cerr << varname << " = \"" << _scope->get_variable(varname) << "\" "; p = q; while (p < _params.length() && isspace(_params[p])) { p++; } } cerr << "\n"; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_include_command // Access: Protected // Description: Handles the #include command: the indicated file is // read and processed at this point. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_include_command() { string filename = trim_blanks(_scope->expand_string(_params)); // We allow optional quotation marks around the filename. if (filename.length() >= 2 && filename[0] == '"' && filename[filename.length() - 1] == '"') { filename = filename.substr(1, filename.length() - 2); } return include_file(filename); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_sinclude_command // Access: Protected // Description: Handles the #sinclude command: the indicated file is // read and processed at this point. This is different // from #include only in that if the file does not // exist, there is no error; instead, nothing happens. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_sinclude_command() { string filename = trim_blanks(_scope->expand_string(_params)); // We allow optional quotation marks around the filename. if (filename.length() >= 2 && filename[0] == '"' && filename[filename.length() - 1] == '"') { filename = filename.substr(1, filename.length() - 2); } Filename fn(filename); if (!fn.exists()) { // No such file; no error. return true; } return include_file(filename); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_copy_command // Access: Protected // Description: Handles the #copy command: the indicated file is // read and output at this point. This is useful for // inserting within an #output sequence, to copy the // contents of some file into the target file. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_copy_command() { string filename = trim_blanks(_scope->expand_string(_params)); // We allow optional quotation marks around the filename. if (filename.length() >= 2 && filename[0] == '"' && filename[filename.length() - 1] == '"') { filename = filename.substr(1, filename.length() - 2); } Filename fn(filename); fn.set_text(); ifstream in; if (!fn.open_read(in)) { cerr << "Unable to open copy file " << fn << ".\n"; errors_occurred = true; return false; } if (verbose) { cerr << "Reading (copy) \"" << fn << "\"\n"; } string line; getline(in, line); while (!in.fail() && !in.eof()) { if (!_write_state->write_line(line)) { return false; } getline(in, line); } if (!in.eof()) { cerr << "Error reading " << fn << ".\n"; errors_occurred = true; return false; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_call_command // Access: Protected // Description: Handles the #call command: the indicated named // subroutine is read and processed at this point. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_call_command() { // The first word is the name of the subroutine; the rest is the // comma-separated list of expressions to substitute in for the // subroutine's formal parameters. // Pull off the first word and the rest of the params. size_t p = 0; while (p < _params.length() && !isspace(_params[p])) { p++; } string subroutine_name = trim_blanks(_params.substr(0, p)); string params = _params.substr(p); if (subroutine_name.empty()) { cerr << "#call requires at least one parameter.\n"; errors_occurred = true; return false; } const PPSubroutine *sub = PPSubroutine::get_sub(subroutine_name); if (sub == (const PPSubroutine *)NULL) { cerr << "Attempt to call undefined subroutine " << subroutine_name << "\n"; errors_occurred = true; } PPScope *old_scope = _scope; PPScope::push_scope(_scope); PPScope nested_scope(_scope->get_named_scopes()); _scope = &nested_scope; nested_scope.define_formals(subroutine_name, sub->_formals, params); vector::const_iterator li; for (li = sub->_lines.begin(); li != sub->_lines.end(); ++li) { if (!read_line(*li)) { PPScope::pop_scope(); _scope = old_scope; return false; } } PPScope::pop_scope(); _scope = old_scope; return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_error_command // Access: Protected // Description: Handles the #error command: terminate immediately // with the given error message. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_error_command() { string message = trim_blanks(_scope->expand_string(_params)); if (!message.empty()) { cerr << message << "\n"; errors_occurred = true; } return false; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_mkdir_command // Access: Protected // Description: Handles the #mkdir command: create a directory or // directories. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_mkdir_command() { vector words; tokenize_whitespace(_scope->expand_string(_params), words); vector::const_iterator wi; for (wi = words.begin(); wi != words.end(); ++wi) { Filename dirname(*wi); if (dirname.is_local()) { string prefix = _scope->expand_variable("DIRPREFIX"); dirname = Filename(prefix, dirname); } Filename filename(dirname, "file"); if (!filename.make_dir()) { if (!dirname.is_directory()) { cerr << "Unable to create directory " << dirname << "\n"; errors_occurred = true; } } } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_defer_command // Access: Protected // Description: Handles the #defer command: define a new variable or // change the definition of an existing variable. This // is different from #define in that the variable // definition is not immediately expanded; it will be // expanded when the variable is later used. This // allows the definition of variables that depend on // other variables whose values have not yet been // defined. This is akin to GNU make's = assignment. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_defer_command() { // Pull off the first word and the rest of the params. size_t p = _scope->scan_to_whitespace(_params); string varname = trim_blanks(_scope->expand_string(_params.substr(0, p))); if (PPSubroutine::get_func(varname) != (const PPSubroutine *)NULL) { cerr << "Warning: variable " << varname << " shadowed by function definition.\n"; } // Skip whitespace between the variable name and its definition. while (p < _params.length() && isspace(_params[p])) { p++; } string def = _params.substr(p); // We don't expand the variable's definition immediately; it will be // expanded when the variable is referenced later. However, we // should expand any simple self-reference immediately, to allow for // recursive definitions. def = _scope->expand_self_reference(def, varname); _scope->define_variable(varname, def); if (verbose >= 2) { cerr << "#defer " << varname << " = " << _params.substr(p) << endl; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_define_command // Access: Protected // Description: Handles the #define command: define a new variable or // change the definition of an existing variable. The // variable definition is immediately expanded. This is // akin to GNU make's := assignment. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_define_command() { // Pull off the first word and the rest of the params. size_t p = _scope->scan_to_whitespace(_params); string varname = trim_blanks(_scope->expand_string(_params.substr(0, p))); if (PPSubroutine::get_func(varname) != (const PPSubroutine *)NULL) { cerr << "Warning: variable " << varname << " shadowed by function definition.\n"; } // Skip whitespace between the variable name and its definition. while (p < _params.length() && isspace(_params[p])) { p++; } string def = _scope->expand_string(_params.substr(p)); _scope->define_variable(varname, def); if (verbose>=2) { cerr << "#define " << varname << " = " << _params.substr(p) << "\n \"" << def << "\"" <scan_to_whitespace(_params); string varname = trim_blanks(_scope->expand_string(_params.substr(0, p))); if (PPSubroutine::get_func(varname) != (const PPSubroutine *)NULL) { cerr << "Warning: variable " << varname << " shadowed by function definition.\n"; } // Skip whitespace between the variable name and its definition. while (p < _params.length() && isspace(_params[p])) { p++; } string def = _scope->expand_string(_params.substr(p)); if (!_scope->set_variable(varname, def)) { cerr << "Attempt to set undefined variable " << varname << "\n"; errors_occurred = true; return false; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_map_command // Access: Protected // Description: Handles the #map command: define a new map variable. // This is a special kind of variable declaration that // creates a variable that can be used as a function to // look up variable expansions within a number of // different named scopes, accessed by keyword. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_map_command() { // Pull off the first word and the rest of the params. size_t p = _scope->scan_to_whitespace(_params); string varname = trim_blanks(_scope->expand_string(_params.substr(0, p))); // Skip whitespace between the variable name and its definition. while (p < _params.length() && isspace(_params[p])) { p++; } string def = trim_blanks(_params.substr(p)); _scope->define_map_variable(varname, def); return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_addmap_command // Access: Protected // Description: Handles the #addmap command: add a new key/scope pair // to an existing map variable. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_addmap_command() { // Pull off the first word and the rest of the params. size_t p = _scope->scan_to_whitespace(_params); string varname = trim_blanks(_scope->expand_string(_params.substr(0, p))); // Skip whitespace between the variable name and the key. while (p < _params.length() && isspace(_params[p])) { p++; } string key = trim_blanks(_scope->expand_string(_params.substr(p))); _scope->add_to_map_variable(varname, key, _scope); return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::handle_push_command // Access: Protected // Description: Handles the #push command: push a variable definition // out to the enclosing scope. Useful for defining // variables within a #forscopes block that you want to // persist longer than the block itself. // // Syntax is: // // #push n varname [varname2 ... ] // // Where n is the number of levels out to push. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: handle_push_command() { // The first word is the number of levels. size_t p = _scope->scan_to_whitespace(_params); string levels_str = trim_blanks(_scope->expand_string(_params.substr(0, p))); // Validate the number. const char *param = levels_str.c_str(); char *n; int levels = strtol(param, &n, 10); if (n == param || levels < 0) { // Invalid integer. cerr << "#push with invalid level count: " << levels_str << "\n"; errors_occurred = true; return false; } PPScope *enclosing_scope = _scope; if (levels > 0) { enclosing_scope = _scope->get_enclosing_scope(levels - 1); } // Skip whitespace to the first variable name. while (p < _params.length() && isspace(_params[p])) { p++; } while (p < _params.length()) { // Pull off the next varname. size_t q = _scope->scan_to_whitespace(_params, p); string varname = trim_blanks(_scope->expand_string(_params.substr(p, q - p))); string def = _scope->get_variable(varname); enclosing_scope->define_variable(varname, def); p = q; while (p < _params.length() && isspace(_params[p])) { p++; } } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::include_file // Access: Protected // Description: The internal implementation of #include: includes a // particular named file at this point. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: include_file(Filename filename) { filename.set_text(); ifstream in; if (!filename.open_read(in)) { cerr << "Unable to open include file " << filename << ".\n"; errors_occurred = true; return false; } if (verbose) { cerr << "Reading (inc) \"" << filename << "\"\n"; } PushFilename pushed(_scope, filename); string line; getline(in, line); while (!in.fail() && !in.eof()) { if (!read_line(line)) { return false; } getline(in, line); } if (!in.eof()) { cerr << "Error reading " << filename << ".\n"; errors_occurred = true; return false; } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::replay_while // Access: Protected // Description: Replays all the lines that were saved during a // previous #while..#end block. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: replay_while(const string &name) { assert(!_in_for); bool okflag = true; vector lines; lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an #end // command that spans multiple lines. Don't do that. assert(!lines.empty()); lines.pop_back(); // Now replay all of the saved lines. BlockNesting *saved_block = _block_nesting; IfNesting *saved_if = _if_nesting; while (!_scope->expand_string(name).empty()) { vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } } if (saved_block != _block_nesting || saved_if != _if_nesting) { cerr << "Misplaced #end or #endif.\n"; errors_occurred = true; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::replay_for // Access: Protected // Description: Replays all the lines that were saved during a // previous #for..#end block. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: replay_for(const string &name, const vector &words) { assert(!_in_for); bool okflag = true; vector lines; lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an #end // command that spans multiple lines. Don't do that. assert(!lines.empty()); lines.pop_back(); // Expand the variable name. string varname = _scope->expand_string(name); // Get out the numeric range. int range[3] = {0, 0, 1}; assert(words.size() <= 3); for (int i = 0; i < (int)words.size(); i++) { const char *param = words[i].c_str(); char *n; range[i] = strtol(param, &n, 10); if (n == param) { cerr << "Invalid integer in #for: " << param << "\n"; errors_occurred = true; return false; } } if (range[2] == 0) { cerr << "Step by zero in #for " << name << "\n"; errors_occurred = true; return false; } // Now replay all of the saved lines. BlockNesting *saved_block = _block_nesting; IfNesting *saved_if = _if_nesting; int index_var; if (range[2] > 0) { for (index_var = range[0]; index_var <= range[1]; index_var += range[2]) { _scope->define_variable(varname, _scope->format_int(index_var)); vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } } } else { for (index_var = range[0]; index_var >= range[1]; index_var += range[2]) { _scope->define_variable(varname, _scope->format_int(index_var)); vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } } } _scope->define_variable(varname, _scope->format_int(index_var)); if (saved_block != _block_nesting || saved_if != _if_nesting) { cerr << "Misplaced #end or #endif.\n"; errors_occurred = true; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::replay_forscopes // Access: Protected // Description: Replays all the lines that were saved during a // previous #forscopes..#end block. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: replay_forscopes(const string &name) { assert(!_in_for); bool okflag = true; vector lines; lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an #end // command that spans multiple lines. Don't do that. assert(!lines.empty()); lines.pop_back(); PPNamedScopes *named_scopes = _scope->get_named_scopes(); // Extract out the scope names from the #forscopes .. #end name. This // is a space-delimited list of scope names. vector words; tokenize_whitespace(_scope->expand_string(name), words); // Now build up the list of scopes with these names. PPNamedScopes::Scopes scopes; vector::const_iterator wi; for (wi = words.begin(); wi != words.end(); ++wi) { named_scopes->get_scopes(*wi, scopes); } PPNamedScopes::sort_by_dependency(scopes); // And finally, replay all of the saved lines. BlockNesting *saved_block = _block_nesting; IfNesting *saved_if = _if_nesting; PPNamedScopes::Scopes::const_iterator si; for (si = scopes.begin(); si != scopes.end() && okflag; ++si) { PPScope::push_scope(_scope); _scope = (*si); vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } _scope = PPScope::pop_scope(); } if (saved_block != _block_nesting || saved_if != _if_nesting) { cerr << "Misplaced #end or #endif.\n"; errors_occurred = true; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::replay_foreach // Access: Protected // Description: Replays all the lines that were saved during a // previous #foreach..#end block. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: replay_foreach(const string &varname, const vector &words) { assert(!_in_for); bool okflag = true; vector lines; lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an #end // command that spans multiple lines. Don't do that. assert(!lines.empty()); lines.pop_back(); // Now traverse through the saved words. BlockNesting *saved_block = _block_nesting; IfNesting *saved_if = _if_nesting; vector::const_iterator wi; for (wi = words.begin(); wi != words.end() && okflag; ++wi) { _scope->define_variable(varname, (*wi)); vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } } if (saved_block != _block_nesting || saved_if != _if_nesting) { cerr << "Misplaced #end or #endif.\n"; errors_occurred = true; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::replay_formap // Access: Protected // Description: Replays all the lines that were saved during a // previous #formap..#end block. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: replay_formap(const string &varname, const string &mapvar) { assert(!_in_for); bool okflag = true; vector lines; lines.swap(_saved_lines); // Remove the #end command. This will fail if someone makes an #end // command that spans multiple lines. Don't do that. assert(!lines.empty()); lines.pop_back(); // Now look up the map variable. PPScope::MapVariableDefinition &def = _scope->find_map_variable(mapvar); if (&def == &PPScope::_null_map_def) { cerr << "Undefined map variable: #formap " << varname << " " << mapvar << "\n"; errors_occurred = true; return false; } // Now traverse through the map definition. BlockNesting *saved_block = _block_nesting; IfNesting *saved_if = _if_nesting; PPScope::MapVariableDefinition::const_iterator di; for (di = def.begin(); di != def.end() && okflag; ++di) { _scope->define_variable(varname, (*di).first); PPScope::push_scope(_scope); _scope = (*di).second; vector::const_iterator li; for (li = lines.begin(); li != lines.end() && okflag; ++li) { okflag = read_line(*li); } _scope = PPScope::pop_scope(); } if (saved_block != _block_nesting || saved_if != _if_nesting) { cerr << "Misplaced #end or #endif.\n"; errors_occurred = true; okflag = false; } return okflag; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::compare_output // Access: Protected // Description: After a file has been written to a (potentially // large) string via an #output command, compare the // results to the original file. If they are different, // remove the original file and replace it with the new // contents; otherwise, leave the original alone. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: compare_output(const string &new_contents, Filename filename, bool notouch, bool binary) { if (binary) { filename.set_binary(); } else { filename.set_text(); } bool exists = filename.exists(); bool differ = false; if (exists) { size_t len = new_contents.length(); size_t want_bytes = len + 1; char *orig_contents = new char[want_bytes]; ifstream in; if (!filename.open_read(in)) { cerr << "Cannot read existing " << filename << ", regenerating.\n"; differ = true; } else { if (verbose) { cerr << "Reading (cmp) \"" << filename << "\"\n"; } in.read(orig_contents, want_bytes); if (in.gcount() != len) { // The wrong number of bytes. differ = true; } else { differ = !(new_contents == string(orig_contents, len)); } } } if (differ || !exists) { #ifndef WIN32_VC if (verbose_dry_run) { // Write our new contents to a file so we can run diff on both // of them. Filename temp_filename = filename.get_fullpath() + string(".ppd"); if (binary) { temp_filename.set_binary(); } else { temp_filename.set_text(); } ofstream out_b; if (!temp_filename.open_write(out_b)) { cerr << "Unable to open temporary file " << filename << " for writing.\n"; errors_occurred = true; return false; } out_b.write(new_contents.data(), new_contents.length()); bool diff_ok = true; if (!out_b) { cerr << "Unable to write to temporary file " << filename << "\n"; errors_occurred = true; diff_ok = true; } out_b.close(); string command = "diff -ub '" + filename.get_fullpath() + "' '" + temp_filename.get_fullpath() + "'"; int sys_result = system(command.c_str()); if (sys_result < 0) { cerr << "Unable to invoke diff\n"; errors_occurred = true; diff_ok = false; } out_b.close(); temp_filename.unlink(); return diff_ok; } else #endif if (dry_run) { cerr << "Would generate " << filename << "\n"; } else { cerr << "Generating " << filename << "\n"; if (exists) { if (!filename.unlink()) { cerr << "Unable to remove old " << filename << "\n"; errors_occurred = true; return false; } } ofstream out_b; if (!filename.open_write(out_b)) { cerr << "Unable to open file " << filename << " for writing.\n"; errors_occurred = true; return false; } out_b.write(new_contents.data(), new_contents.length()); if (!out_b) { cerr << "Unable to write to file " << filename << "\n"; errors_occurred = true; return false; } out_b.close(); } } else { // Even though the file is unchanged, unless the "notouch" flag is // set, we want to update the modification time. This helps the // makefiles know we did something. if (!notouch && !dry_run) { if (!filename.touch()) { cerr << "Warning: unable to update timestamp for " << filename << "\n"; } } } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::failed_if // Access: Protected // Description: Returns true if we are currently within a failed #if // block (or in an #else block for a passed #if block), // or false otherwise. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: failed_if() const { return (_if_nesting != (IfNesting *)NULL && (_if_nesting->_state == IS_off || _if_nesting->_state == IS_done)); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::is_valid_formal_parameter_name // Access: Protected // Description: Returns true if the indicated name is an acceptable // name for a formal parameter. This means it includes // no whitespace or crazy punctuation. Mainly this is // to protect the user from making some stupid syntax // mistake. //////////////////////////////////////////////////////////////////// bool PPCommandFile:: is_valid_formal(const string &formal_parameter_name) const { if (formal_parameter_name.empty()) { return false; } string::const_iterator si; for (si = formal_parameter_name.begin(); si != formal_parameter_name.end(); ++si) { switch (*si) { case ' ': case '\n': case '\t': case '$': case '[': case ']': case ',': return false; } } return true; } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::PushFilename::Constructor // Access: Public // Description: This special class changes the current filename of // the PPCommandFile. The idea is to create one of // these when the filename is changed (for instance, to // read in a new file via an #include directive); when // the variable then goes out of scope, it will restore // the previous filename. // // This updates the scope with the appropriate // variables. //////////////////////////////////////////////////////////////////// PPCommandFile::PushFilename:: PushFilename(PPScope *scope, const string &filename) { _scope = scope; _old_thisdirprefix = _scope->get_variable("THISDIRPREFIX"); _old_thisfilename = _scope->get_variable("THISFILENAME"); string thisfilename = filename; string thisdirprefix; size_t slash = filename.rfind('/'); if (slash == string::npos) { thisdirprefix = string(); } else { thisdirprefix = filename.substr(0, slash + 1); } _scope->define_variable("THISFILENAME", thisfilename); _scope->define_variable("THISDIRPREFIX", thisdirprefix); } //////////////////////////////////////////////////////////////////// // Function: PPCommandFile::PushFilename::Destructor // Access: Public // Description: //////////////////////////////////////////////////////////////////// PPCommandFile::PushFilename:: ~PushFilename() { _scope->define_variable("THISFILENAME", _old_thisfilename); _scope->define_variable("THISDIRPREFIX", _old_thisdirprefix); }