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//{{{ Banner //========================================================================== // // build.cxx // // libcdl support for building and for header file generation // //========================================================================== //####COPYRIGHTBEGIN#### // // ---------------------------------------------------------------------------- // Copyright (C) 2002, 2003 Bart Veer // Copyright (C) 1999, 2000, 2001 Red Hat, Inc. // // This file is part of the eCos host tools. // // This program 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 of the License, or (at your option) // any later version. // // This program 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 // this program; if not, write to the Free Software Foundation, Inc., // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // ---------------------------------------------------------------------------- // //####COPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): bartv // Contributors: bartv // Date: 1999-06-018 // //####DESCRIPTIONEND#### //========================================================================== //}}} //{{{ #include's // ---------------------------------------------------------------------------- #include "cdlconfig.h" // Get the infrastructure types, assertions, tracing and similar // facilities. #include <cyg/infra/cyg_ass.h> #include <cyg/infra/cyg_trac.h> // <cdl.hxx> defines everything implemented in this module. // It implicitly supplies <string>, <vector> and <map> because // the class definitions rely on these headers. #include <cdlcore.hxx> //}}} //{{{ Statics // ---------------------------------------------------------------------------- CYGDBG_DEFINE_MEMLEAK_COUNTER(CdlBuildLoadableBody); CYGDBG_DEFINE_MEMLEAK_COUNTER(CdlBuildableBody); CYGDBG_DEFINE_MEMLEAK_COUNTER(CdlDefineLoadableBody); CYGDBG_DEFINE_MEMLEAK_COUNTER(CdlDefinableBody); //}}} //{{{ CdlBuildableBody //{{{ Basics // ---------------------------------------------------------------------------- // There is little data specific to a buildable. The only distinguishing // feature is the set of properties that are supported, plus a handful // of functions to extract that information. CdlBuildableBody::CdlBuildableBody() { CYG_REPORT_FUNCNAME("CdlBuildable:: default constructor"); CYG_REPORT_FUNCARG1XV(this); // There is no data to initialize yet cdlbuildablebody_cookie = CdlBuildableBody_Magic; CYGDBG_MEMLEAK_CONSTRUCTOR(); CYG_POSTCONDITION_THISC(); CYG_REPORT_RETURN(); } CdlBuildableBody::~CdlBuildableBody() { CYG_REPORT_FUNCNAME("CdlBuildable:: destructor"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); cdlbuildablebody_cookie = CdlBuildableBody_Invalid; CYGDBG_MEMLEAK_DESTRUCTOR(); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- std::string CdlBuildableBody::get_class_name() const { CYG_REPORT_FUNCNAME("CdlBuildable::get_class_name"); CYG_PRECONDITION_THISC(); CYG_REPORT_RETURN(); return "buildable"; } // ---------------------------------------------------------------------------- bool CdlBuildableBody::check_this(cyg_assert_class_zeal zeal) const { if (CdlBuildableBody_Magic != cdlbuildablebody_cookie) { return false; } CYGDBG_MEMLEAK_CHECKTHIS(); return CdlNodeBody::check_this(zeal); } //}}} //{{{ Add and check property parsers // ---------------------------------------------------------------------------- void CdlBuildableBody::add_property_parsers(std::vector<CdlInterpreterCommandEntry>& parsers) { CYG_REPORT_FUNCNAME("CdlBuildable::add_property_parsers"); static CdlInterpreterCommandEntry commands[] = { CdlInterpreterCommandEntry("compile", &CdlBuildableBody::parse_compile ), CdlInterpreterCommandEntry("object", &CdlBuildableBody::parse_object ), CdlInterpreterCommandEntry("make_object", &CdlBuildableBody::parse_make_object), CdlInterpreterCommandEntry("make", &CdlBuildableBody::parse_make ), CdlInterpreterCommandEntry("build_proc", &CdlBuildableBody::parse_build_proc ), CdlInterpreterCommandEntry("", 0 ), }; for (int i = 0; commands[i].command != 0; i++) { std::vector<CdlInterpreterCommandEntry>::const_iterator j; for (j = parsers.begin(); j != parsers.end(); j++) { if (commands[i].name == j->name) { if (commands[i].command != j->command) { CYG_FAIL("Property names are being re-used"); } break; } } if (j == parsers.end()) { parsers.push_back(commands[i]); } } CdlNodeBody::add_property_parsers(parsers); CYG_REPORT_RETURN(); } void CdlBuildableBody::check_properties(CdlInterpreter interp) { CYG_REPORT_FUNCNAME("CdlBuildable::check_properties"); CYG_REPORT_FUNCARG2XV(this, interp); CYG_PRECONDITION_THISC(); CYG_PRECONDITION_CLASSC(interp); // There are no real constraints on the number of compile // properties etc. // TODO: check that the relevant sources files exist, // unless marked appropriately (build_proc can create // new source files). CdlNodeBody::check_properties(interp); CYG_REPORT_RETURN(); } //}}} //{{{ Property parsers // ---------------------------------------------------------------------------- // Syntax: compile <file1 file2 ...> // // There are a couple of checks that could be performed here: // // 1) does each listed file actually exist? Unfortunately that approach // falls foul of build_proc, which is allowed to generate source files // on the fly. // // 2) does the file have a recognised suffix such as .c or .cxx. This // relies libcdl having some way of knowing how to treat different // files. // // For now there are no validity checks. // // A future extension may allow dependencies to be listed, as an // option. This would allow component vendors to specify that // particular custom build steps should happen before particular // compilations, a more robust approach than the current priority // scheme. int CdlBuildableBody::parse_compile(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_compile", "result %d"); static char* options[] = { "library:", 0 }; int result = CdlParse::parse_stringvector_property(interp, argc, argv, CdlPropertyId_Compile, options, 0, true); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // A utility to break a custom build step down into its three components. // // A custom build step takes the form: // target : deps // rules // // This utility function takes a single string of this form and breaks // it down into its constituent parts. // // NOTE: this will need lots of extra code in future to allow for // escaped characters, spaces in filenames, etc. For now just keep // things simple. bool CdlBuildableBody::split_custom_build_step(std::string str_data, std::string& target, std::string& deps, std::string& rules, std::string& error_msg) { CYG_REPORT_FUNCNAMETYPE("CdlBuildable::split_custom_build_step", "result %d"); target = ""; deps = ""; rules = ""; error_msg = ""; const char* data = str_data.c_str(); // Skip any leading white space, and make sure that this leaves some real data. while (('\0' != *data) && isspace(*data)) { data++; } if ('\0' == *data) { error_msg = "no data in custom build_step"; CYG_REPORT_RETVAL(false); return false; } // Now extract the target. This consists of any sequence of characters // upto space, tab, colon. for ( ; ('\0' != *data) && (':' != *data) && (' ' != *data) && ('\t' != *data); data++) { target += *data; } // Discard any spaces or tabs, they are of no interest while ((' ' == *data) || ('\t' == *data)) { data++; } // The current character should be a colon if (':' != *data) { error_msg = "expecting a colon `;' after the target `" + target + "'"; CYG_REPORT_RETVAL(false); return false; } // Move past the colon, and skip any further spaces or tabs data++; while (('\0' != *data) && ((' ' == *data) || ('\t' == *data))) { data++; } // Everything from here until the end of line should be part of the deps field, // including white space. while (('\0' != *data) && ('\n' != *data) && (';' != *data)) { deps += *data++; } if ("" == deps) { error_msg = "expecting dependency list after `" + target + ":'"; CYG_REPORT_RETVAL(false); return false; } // Having some rules is compulsory. if ('\0' == *data) { error_msg = "expecting one or more rules after the dependency list"; CYG_REPORT_RETVAL(false); return false; } else { // We are currently at \n or ;, move on to the actual rules data++; } // Rules consist of one or more lines. Any leading white space on a given // line should be discarded. while ('\0' != *data) { // Processing the current rule. Skip leading spaces and tabs while ((' ' == *data) || ('\t' == *data)) { data++; } // Now add everything up to the next newline or EOD to the rules. while (('\0' != *data) && ('\n' != *data)) { rules += *data++; } // Terminate this line of the rules with a newline, even if that // character is absent from the raw data. rules += '\n'; // And ignore the newline in the raw data itself if ('\n' == *data) { data++; } } // Better make sure that there are some rules. All of the looping above // may just have left white space if ("" == rules) { error_msg = "no rules provided"; CYG_REPORT_RETVAL(false); return false; } // Everything is ok. CYG_REPORT_RETVAL(true); return true; } // ---------------------------------------------------------------------------- // syntax: make <target> <rules> // // There is rather a lot of checking to be done. // // 1) the priority should be valid. In particular it should be a number // within a reasonable range. // // 2) the rules should take the form: // <target> : <deps> ;|\n rules // // Where the target should be a single file, identical to the // first property argument. static void parse_make_final_check(CdlInterpreter interp, CdlProperty_String prop) { CYG_REPORT_FUNCNAME("parse_make_final_check"); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITION_CLASSC(prop); std::string prio_string = prop->get_option("priority"); if ("" != prio_string) { cdl_int tmp = 1; if (!Cdl::string_to_integer(prio_string, tmp)) { CdlParse::report_property_parse_error(interp, prop, "Invalid priority option, priorities should be simple numbers."); } else { if ((tmp < 1) || (tmp > 1024)) { CdlParse::report_property_parse_error(interp, prop, "Invalid priority value, priorities should be in the range 1 to 1024."); } } } std::string data = prop->get_string(); std::string target; std::string deps; std::string rules; std::string error_msg; if (!CdlBuildableBody::split_custom_build_step(data, target, deps, rules, error_msg)) { CdlParse::report_property_parse_error(interp, prop, "Invalid custom build step, " + error_msg); } } int CdlBuildableBody::parse_make(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_make", "result %d"); static char* options[] = { "priority:", 0 }; int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_Make, options, &parse_make_final_check); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: make_object <target> <rules> // // The rules here are much the same as for the "make" property. static void parse_make_object_final_check(CdlInterpreter interp, CdlProperty_String prop) { CYG_REPORT_FUNCNAME("parse_make_object_final_check"); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITION_CLASSC(prop); std::string prio_string = prop->get_option("priority"); if ("" != prio_string) { cdl_int tmp = 1; if (!Cdl::string_to_integer(prio_string, tmp)) { CdlParse::report_property_parse_error(interp, prop, "Invalid priority option, priorities should be simple numbers."); } else { if ((tmp < 1) || (tmp > 1024)) { CdlParse::report_property_parse_error(interp, prop, "Invalid priority value, priorities should be in the range 1 to 1024."); } } } std::string data = prop->get_string(); std::string target; std::string deps; std::string rules; std::string error_msg; if (!CdlBuildableBody::split_custom_build_step(data, target, deps, rules, error_msg)) { CdlParse::report_property_parse_error(interp, prop, "Invalid custom build step, " + error_msg); } } int CdlBuildableBody::parse_make_object(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_make_object", "result %d"); static char* options[] = { "library:", "priority:", 0 }; int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_MakeObject, options, &parse_make_object_final_check); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // Syntax: object <file1> <file2> ... int CdlBuildableBody::parse_object(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_object", "result %d"); static char* options[] = { "library:", 0 }; int result = CdlParse::parse_stringvector_property(interp, argc, argv, CdlPropertyId_Object, options, 0, true); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // Syntax: build_proc { tcl code } int CdlBuildableBody::parse_build_proc(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_build_proc", "result %d"); int result = CdlParse::parse_tclcode_property(interp, argc, argv, CdlPropertyId_BuildProc, 0, 0); CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ update_build_info() // ---------------------------------------------------------------------------- // Most of the work is done in update_all_build_info(). The update_build_info() // merely checks the active and enabled state first. void CdlBuildableBody::update_build_info(CdlBuildInfo_Loadable& build_info, std::string library) const { CYG_REPORT_FUNCNAME("CdlBuildable::update_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); CYG_PRECONDITIONC("" != library); if (!is_active()) { CYG_REPORT_RETURN(); return; } CdlConstValuable valuable = dynamic_cast<CdlConstValuable>(this); if (0 != valuable) { if (!valuable->is_enabled()) { CYG_REPORT_RETURN(); return; } } update_all_build_info(build_info, library); CYG_REPORT_RETURN(); } //}}} //{{{ update_all_build_info() // ---------------------------------------------------------------------------- // There are four properties to be considered, each of which may occur // multiple times: "compile", "object", "make_object", and "make". // Each of these will result in separate additions to the build_info // structure. void CdlBuildableBody::update_all_build_info(CdlBuildInfo_Loadable& build_info, std::string package_library) const { CYG_REPORT_FUNCNAME("CdlBuildable::update_all_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); CYG_PRECONDITIONC("" != package_library); // Get some information about the owning loadable first. CdlLoadable loadable = get_owner(); CYG_ASSERT_CLASSC(loadable); std::string directory = loadable->get_directory(); CYG_ASSERTC("" != directory); CdlInterpreter interp = loadable->get_interpreter(); CYG_ASSERT_CLASSC(interp); // The interpreter needs some information about the locations // of various things. This code has to be kept in step with // CdlLoadable::find_relative_file() interp->set_variable("::cdl_topdir", get_toplevel()->get_directory()); interp->set_variable("::cdl_pkgdir", directory); // For many packages the sources will reside in a src subdirectory. // For simple packages the sources may live directly at the toplevel bool has_src_subdir = loadable->has_subdirectory("src"); // NOTE: the object property is not yet supported std::vector<CdlProperty> compile_properties; get_properties(CdlPropertyId_Compile, compile_properties); std::vector<CdlProperty> makeobject_properties; get_properties(CdlPropertyId_MakeObject, makeobject_properties); std::vector<CdlProperty> make_properties; get_properties(CdlPropertyId_Make, make_properties); std::vector<CdlProperty>::const_iterator prop_i; for (prop_i = compile_properties.begin(); prop_i != compile_properties.end(); prop_i++) { CdlProperty_StringVector compile_prop = dynamic_cast<CdlProperty_StringVector>(*prop_i); CYG_LOOP_INVARIANT_CLASSC(compile_prop); // Does this property have a library option? std::string current_library = compile_prop->get_option("library"); if ("" == current_library) { current_library = package_library; } const std::vector<std::string>& files = compile_prop->get_strings(); std::vector<std::string>::const_iterator file_i; for (file_i = files.begin(); file_i != files.end(); file_i++) { // For each listed file, try to find it. If this is unsuccessful // then assume that the file will be generated later on. std::string path = loadable->find_relative_file(*file_i, "src"); if ("" == path) { if (has_src_subdir) { path = "src/" + *file_i; } else { path = *file_i; } } // Now check whether or not the specified file is already present. std::vector<CdlBuildInfo_Compile>::const_iterator info_i; for (info_i = build_info.compiles.begin(); info_i != build_info.compiles.end(); info_i++) { if ((current_library == info_i->library) && (path == info_i->source)) { break; } } if (info_i == build_info.compiles.end()) { CdlBuildInfo_Compile new_info; new_info.library = current_library; new_info.source = path; build_info.compiles.push_back(new_info); } } } for (prop_i = makeobject_properties.begin(); prop_i != makeobject_properties.end(); prop_i++) { CdlProperty_String prop = dynamic_cast<CdlProperty_String>(*prop_i); CYG_LOOP_INVARIANT_CLASSC(prop); // Does thie property have a library option? std::string current_library = prop->get_option("library"); if ("" == current_library) { current_library = package_library; } // How about a priority field? The default priority for make_object is 100 // We can rely on the validation done during the parsing process cdl_int priority = 100; std::string priority_option = prop->get_option("priority"); if ("" != priority_option) { Cdl::string_to_integer(priority_option, priority); } // What we need now is the separate target, deps, and rules. These // can be obtained via a utility. The raw data will have been validated // already. std::string raw_data = prop->get_string(); std::string target; std::string deps; std::string rules; std::string error_msg; bool result; result = CdlBuildableBody::split_custom_build_step(raw_data, target, deps, rules, error_msg); CYG_ASSERTC(true == result); // Construct a local object, then copy it into the vector CdlBuildInfo_MakeObject local_copy; local_copy.priority = priority; local_copy.library = current_library; local_copy.object = target; local_copy.deps = deps; local_copy.rules = rules; build_info.make_objects.push_back(local_copy); } for (prop_i = make_properties.begin(); prop_i != make_properties.end(); prop_i++) { CdlProperty_String prop = dynamic_cast<CdlProperty_String>(*prop_i); CYG_LOOP_INVARIANT_CLASSC(prop); // Is there a priority field? The default priority for make is // 300 We can rely on the validation done during the parsing // process cdl_int priority = 300; std::string priority_option = prop->get_option("priority"); if ("" != priority_option) { Cdl::string_to_integer(priority_option, priority); } // What we need now is the separate target, deps, and rules. These // can be obtained via a utility. The raw data will have been validated // already. std::string raw_data = prop->get_string(); std::string target; std::string deps; std::string rules; std::string error_msg; bool result; result = CdlBuildableBody::split_custom_build_step(raw_data, target, deps, rules, error_msg); CYG_ASSERTC(true == result); // Construct a local object, then copy it into the vector CdlBuildInfo_Make local_copy; local_copy.priority = priority; local_copy.target = target; local_copy.deps = deps; local_copy.rules = rules; build_info.makes.push_back(local_copy); } CYG_REPORT_RETURN(); } //}}} //}}} //{{{ CdlBuildLoadableBody //{{{ Class variables // ---------------------------------------------------------------------------- // This variable controls the default library that should be generated. // Some applications may wish to override this. char* CdlBuildLoadableBody::default_library_name = "libtarget.a"; // The pattern that should be used to identify header files. // FIXME: this information should come out of a data file char* CdlBuildLoadableBody::default_headers_glob_pattern = "*.h *.hxx *.inl *.si *.inc"; //}}} //{{{ The simple stuff // ---------------------------------------------------------------------------- CdlBuildLoadableBody::CdlBuildLoadableBody() : CdlLoadableBody() { CYG_REPORT_FUNCNAME("CdlBuildLoadable:: default constructor"); CYG_REPORT_FUNCARG1XV(this); // There is no data to initialize cdlbuildloadablebody_cookie = CdlBuildLoadableBody_Magic; CYGDBG_MEMLEAK_CONSTRUCTOR(); CYG_POSTCONDITION_THISC(); CYG_REPORT_RETURN(); } CdlBuildLoadableBody::~CdlBuildLoadableBody() { CYG_REPORT_FUNCNAME("CdlBuildLoadable:: destructor"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); cdlbuildloadablebody_cookie = CdlBuildLoadableBody_Invalid; CYGDBG_MEMLEAK_DESTRUCTOR(); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- std::string CdlBuildLoadableBody::get_class_name() const { CYG_REPORT_FUNCNAME("CdlBuildLoadable::get_class_name"); CYG_PRECONDITION_THISC(); CYG_REPORT_RETURN(); return "build_loadable"; } // ---------------------------------------------------------------------------- bool CdlBuildLoadableBody::check_this(cyg_assert_class_zeal zeal) const { if (CdlBuildLoadableBody_Magic != cdlbuildloadablebody_cookie) { return false; } CYGDBG_MEMLEAK_CHECKTHIS(); return CdlContainerBody::check_this(zeal) && CdlNodeBody::check_this(zeal); } //}}} //{{{ Property parsers // ---------------------------------------------------------------------------- void CdlBuildLoadableBody::add_property_parsers(std::vector<CdlInterpreterCommandEntry>& parsers) { CYG_REPORT_FUNCNAME("CdlBuildLoadable::add_property_parsers"); static CdlInterpreterCommandEntry commands[] = { CdlInterpreterCommandEntry("library", &CdlBuildLoadableBody::parse_library ), CdlInterpreterCommandEntry("makefile", &CdlBuildLoadableBody::parse_makefile ), CdlInterpreterCommandEntry("include_dir", &CdlBuildLoadableBody::parse_include_dir ), CdlInterpreterCommandEntry("include_files", &CdlBuildLoadableBody::parse_include_files ), CdlInterpreterCommandEntry("", 0 ) }; for (int i = 0; commands[i].command != 0; i++) { std::vector<CdlInterpreterCommandEntry>::const_iterator j; for (j = parsers.begin(); j != parsers.end(); j++) { if (commands[i].name == j->name) { if (commands[i].command != j->command) { CYG_FAIL("Property names are being re-used"); } break; } } if (j == parsers.end()) { parsers.push_back(commands[i]); } } CYG_REPORT_RETURN(); } void CdlBuildLoadableBody::check_properties(CdlInterpreter interp) { CYG_REPORT_FUNCNAME("CdlBuildLoadable::check_properties"); CYG_REPORT_FUNCARG2XV(this, interp); CYG_PRECONDITION_THISC(); CYG_PRECONDITION_CLASSC(interp); CdlNodeBody::check_properties(interp); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- // syntax: library <filename> // // NOTE: there should probably be a check that the library name is in // a valid format, i.e. libxxx.a int CdlBuildLoadableBody::parse_library(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_library", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_Library, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: makefile <filename> // // NOTE: possibly there should be a check that the makefile exists. // Do we want to allow build_proc's to generate makefiles? int CdlBuildLoadableBody::parse_makefile(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_makefile", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_Makefile, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: include_dir <directory name> int CdlBuildLoadableBody::parse_include_dir(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_include_dir", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_IncludeDir, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // Syntax: include_files <file1 file2 ...> // // This lists the header files that should be copied into the install tree // as part of the build operation. In the absence of an include_files property // there should be an include subdirectory, and all files in that subdirectory // are assumed to be exportable headers. // // NOTE: add a finalizer to check that the files exist or get created. int CdlBuildLoadableBody::parse_include_files(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_include_files", "result %d"); int result = CdlParse::parse_stringvector_property(interp, argc, argv, CdlPropertyId_IncludeFiles, 0, 0, true); CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ update_build_info() // ---------------------------------------------------------------------------- // This utility routine takes care of filling in a Buildinfo_Loadable // structure with the appropriate header file information. This involves // the following: // // 1) there may be an include_dir property. This affects the destination // of any header files that are listed. // // 2) the loadable may or may not have an include subdirectory. For // non-trivial packages the include subdirectory provides a clean // way of separating interface and implementation. For simple // packages it is too heavyweight. // // 3) there may be one or more include_files property. If so then these // specify all the files that should be exported. // // 4) otherwise if there is an include subdirectory then we need to // know all the header files in that subdirectory. A Tcl script is // used for this. // // 5) otherwise all the header files below the package directory itself // are of interest. static void update_header_file_info(CdlConstBuildLoadable loadable, CdlBuildInfo_Loadable& build_info) { CYG_REPORT_FUNCNAME("update_header_file_info"); CYG_REPORT_FUNCARG2XV(loadable, &build_info); CYG_PRECONDITION_CLASSC(loadable); std::string dest_dir = ""; CdlProperty include_dir_prop = loadable->get_property(CdlPropertyId_IncludeDir); if (0 != include_dir_prop) { CdlProperty_String strprop = dynamic_cast<CdlProperty_String>(include_dir_prop); CYG_ASSERT_CLASSC(strprop); dest_dir = strprop->get_string(); } bool has_include_subdir = loadable->has_subdirectory("include"); std::vector<CdlProperty> include_file_properties; loadable->get_properties(CdlPropertyId_IncludeFiles, include_file_properties); if (include_file_properties.size() > 0) { std::vector<CdlProperty>::const_iterator prop_i; for (prop_i = include_file_properties.begin(); prop_i != include_file_properties.end(); prop_i++) { CdlProperty_StringVector strvprop = dynamic_cast<CdlProperty_StringVector>(*prop_i); CYG_ASSERT_CLASSC(strvprop); const std::vector<std::string>& filenames = strvprop->get_strings(); std::vector<std::string>::const_iterator file_i; for (file_i = filenames.begin(); file_i != filenames.end(); file_i++) { std::string path = loadable->find_relative_file(*file_i, "include"); // Assume that the header file will be generated by a build_proc if ("" == path) { if (has_include_subdir) { path = "include/" + *file_i; } else { path = *file_i; } } CdlBuildInfo_Header local_copy; local_copy.source = path; local_copy.destination = ""; if ("" != dest_dir) { local_copy.destination = dest_dir + "/"; } // At this stage "path" may begin with "include/", which should not // be present in the destination. const char* tmp = path.c_str(); if (0 == strncmp("include/", tmp, 8)) { local_copy.destination += &(tmp[8]); } else { local_copy.destination += path; } build_info.headers.push_back(local_copy); } } CYG_REPORT_RETURN(); return; } // It is necessary to search for the appropriate files. CdlInterpreter interp = loadable->get_interpreter(); std::string path = loadable->get_toplevel()->get_directory() + "/" + loadable->get_directory(); if (has_include_subdir) { std::vector<std::string> files; std::vector<std::string>::const_iterator file_i; interp->locate_all_files(path + "/include", files); for (file_i = files.begin(); file_i != files.end(); file_i++) { // NOTE: for now discard any header files in the pkgconf subdirectory if (0 == strncmp("pkgconf/", file_i->c_str(), 8)) { continue; } if ('~' == *(file_i->rbegin())) { continue; } CdlBuildInfo_Header local_copy; local_copy.source = "include/" + *file_i; local_copy.destination = ""; if ("" != dest_dir) { local_copy.destination = dest_dir + "/"; } local_copy.destination += *file_i; build_info.headers.push_back(local_copy); } } else { // Look for all header files, which for now means files with // a .h, .hxx, .inl or .inc extension. // FIXME: the definition of what constitutes a header file // should not be hard-wired here. std::vector<std::string> files; std::vector<std::string>::const_iterator file_i; interp->locate_all_files(path, files); for (file_i = files.begin(); file_i != files.end(); file_i++) { // Problems with libstdc++ versions, use C comparisons instead. const char* c_string = file_i->c_str(); unsigned int len = strlen(c_string); if (((len >= 2) && (0 == strncmp(c_string + len - 2, ".h", 2))) || ((len >= 4) && (0 == strncmp(c_string + len - 4, ".hxx", 4))) || ((len >= 4) && (0 == strncmp(c_string + len - 4, ".inl", 4))) || ((len >= 4) && (0 == strncmp(c_string + len - 4, ".inc", 4)))) { CdlBuildInfo_Header local_copy; local_copy.source = *file_i; local_copy.destination = ""; if ("" != dest_dir) { local_copy.destination = dest_dir + "/"; } local_copy.destination += *file_i; build_info.headers.push_back(local_copy); } } } CYG_REPORT_RETURN(); return; } // ---------------------------------------------------------------------------- // Updating a loadable build's info involves two steps. First, there // is some information associated with the loadable as a whole such as // header files. Second, each buildable in the loadable (including itself) // may contain properties such as compile etc. This is all handled via // a CdlBuildable member function. void CdlBuildLoadableBody::update_build_info(CdlBuildInfo& build_info) const { CYG_REPORT_FUNCNAME("CdlBuildLoadable::update_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); // It is not possible to disable a loadable itself: either the // loadable is present or it is not (although in some cases users // may be able to change versions). However, because of reparenting // it is possible for a loadable to be below a disabled container, // and hence it is still necessary to check whether or not the // loadable is active. if (!is_active()) { CYG_REPORT_RETURN(); return; } // Time to add a new CdlBuildInfo_Loadable object to the current // vector. The name and directory can be filled in straightaway, // the vectors will all be initialized to empty. CdlBuildInfo_Loadable tmp_info; build_info.entries.push_back(tmp_info); CdlBuildInfo_Loadable& this_info = *(build_info.entries.rbegin()); this_info.name = get_name(); this_info.directory = get_directory(); // Take care of the header files update_header_file_info(this, this_info); // Work out the library name appropriate for this loadable. // There may be a library property, otherwise the global default // should be used. std::string loadable_library = default_library_name; if (has_property(CdlPropertyId_Library)) { CdlProperty_String strprop = dynamic_cast<CdlProperty_String>(get_property(CdlPropertyId_Library)); loadable_library = strprop->get_string(); } const std::vector<CdlNode>& contents = get_owned(); std::vector<CdlNode>::const_iterator node_i; for (node_i = contents.begin(); node_i != contents.end(); node_i++) { CdlBuildable buildable = dynamic_cast<CdlBuildable>(*node_i); if (0 != buildable) { buildable->update_build_info(this_info, loadable_library); } } CYG_REPORT_RETURN(); } // This is much the same as the above, but there is no test for // active either at the loadable level or for the individual buildables. void CdlBuildLoadableBody::update_all_build_info(CdlBuildInfo& build_info) const { CYG_REPORT_FUNCNAME("CdlBuildLoadable::update_all_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); CdlBuildInfo_Loadable tmp_info; build_info.entries.push_back(tmp_info); CdlBuildInfo_Loadable& this_info = *(build_info.entries.rbegin()); this_info.name = get_name(); this_info.directory = get_directory(); std::string loadable_library = default_library_name; if (has_property(CdlPropertyId_Library)) { CdlProperty_String strprop = dynamic_cast<CdlProperty_String>(get_property(CdlPropertyId_Library)); loadable_library = strprop->get_string(); } const std::vector<CdlNode>& contents = get_owned(); std::vector<CdlNode>::const_iterator node_i; for (node_i = contents.begin(); node_i != contents.end(); node_i++) { CdlBuildable buildable = dynamic_cast<CdlBuildable>(*node_i); if (0 != buildable) { buildable->update_build_info(this_info, loadable_library); } } CYG_REPORT_RETURN(); CYG_REPORT_RETURN(); } //}}} //}}} //{{{ Version number #define's // ---------------------------------------------------------------------------- // Given a package xxxPKG_A_B_C with a version V1_2_3, generate additional // #define's of the form: // // #define xxxNUM_A_B_C_VERSION_MAJOR 1 // #define xxxNUM_A_B_C_VERSION_MINOR 2 // #define xxxNUM_A_B_C_VERSION_RELEASE 3 // // The goal here is to allow application code to cope with API // changes (which of course should be a rare event but cannot be // eliminated completely). C preprocessor #if statements are // essentially limited to numerical values, so there is no easy // way of coping with V1_2_3 at the preprocessor level. However it // is possible to cope with VERSION_NUMBER #define's. // // Note that only application code and third party packages are // affected. // // These #define's go into system.h, alongside the main definition of // the package. There seems to be little point in putting them in the // package's own configuration header. // // There are three problems. First, what should be done for packages // which do not follow the naming conventions? Given a completely // random package rather than something like xxxPKG_..., what symbol // names should be used? Basically, if the package does not follow the // naming convention then there is no safe way of generating new // symbols. Any names that are chosen might clash. Of course even for // packages that do follow the naming convention a clash is still // possible, just a lot less likely. // // Conclusion: if a package does not follow the naming convention, do // not generate version #define's for it. // // Second, what happens if a different version numbering scheme is // used? For example the release number might be absent. Version // numbering schemes might change between releases, but application // code may still check the #define's. // // Third and related, what should happen for "current" and anoncvs? Do // we want to look at what other versions are installed and bump one // of the numbers? // // Conclusion: the version #define's always have to be generated, // even if they are not present in the version string, to allow // application code to test these symbols anyway. A safe default is // necessary, and -1 is probably the best bet. For example, if // the version is bumped from 1.3.287 to 1.4 then the release number // for the latter is set to -1. Another possible default would be // 0, but that could cause problems for packages that start counting // from 0 (not a common practice, but...) // // This leaves the question of what to do about "current". Chances are // that "current" comes from anoncvs and is always more recent than // any official release, so when comparing versions "current" should // always be greater than anything else. This can be achieved by using // a sufficiently large number for the major version. In practice // it is cleaner to have another #define to indicate the current // version, and then define package versions to match, i.e.: // // #define CYGNUM_VERSION_CURRENT 0x7fffff00 // ... // #define xxxNUM_A_B_C_VERSION_MAJOR CYGNUM_VERSION_CURRENT // #define xxxNUM_A_B_C_VERSION_MINOR -1 // #define xxxNUM_A_B_C_VERSION_RELEASE -1 // // All comparisons should now work sensibly. Leaving a little bit // of slack for VERSION_CURRENT seems like a good precaution. static void system_h_add_version_header(Tcl_Channel system_h) { CYG_REPORT_FUNCNAME("system_h_add_version_header"); Tcl_Write(system_h, "#define CYGNUM_VERSION_CURRENT 0x7fffff00\n", -1); CYG_REPORT_RETURN(); } static void system_h_add_package_versioning(Tcl_Channel system_h, std::string name, std::string value) { CYG_REPORT_FUNCNAME("system_h_add_package_versioning"); char name_buf[256]; char line_buf[512]; // The first thing to check is that the package name can be used // as the basis for the version symbols. bool ok = false; unsigned int i; for (i = 0; i < name.size(); i++) { if ('_' == name[i]) { if (3 < i) { if ((name[i-3] == 'P') && (name[i-2] == 'K') && (name[i-1] == 'G')) { ok = true; } } break; } } if (name.size() >= 256) { ok = false; } if (!ok) { CYG_REPORT_RETURN(); return; } strcpy(name_buf, name.c_str()); // Change from xxxPKG to xxxNUM name_buf[i - 3] = 'N'; name_buf[i - 2] = 'U'; name_buf[i - 1] = 'M'; // Now determine the version strings. std::string major = "-1"; std::string minor = "-1"; std::string release = "-1"; if ("current" == value) { major = "CYGNUM_VERSION_CURRENT"; } else { Cdl::split_version_string(value, major, minor, release); } sprintf(line_buf, "#define %s_VERSION_MAJOR %s\n", name_buf, major.c_str()); Tcl_Write(system_h, line_buf, -1); sprintf(line_buf, "#define %s_VERSION_MINOR %s\n", name_buf, minor.c_str()); Tcl_Write(system_h, line_buf, -1); sprintf(line_buf, "#define %s_VERSION_RELEASE %s\n", name_buf, release.c_str()); Tcl_Write(system_h, line_buf, -1); CYG_REPORT_RETURN(); } //}}} //{{{ CdlDefinableBody //{{{ Basics // ---------------------------------------------------------------------------- CdlDefinableBody::CdlDefinableBody() { CYG_REPORT_FUNCNAME("CdlDefinable:: default constructor"); CYG_REPORT_FUNCARG1XV(this); // There is no data to initialize cdldefinablebody_cookie = CdlDefinableBody_Magic; CYGDBG_MEMLEAK_CONSTRUCTOR(); CYG_POSTCONDITION_THISC(); CYG_REPORT_RETURN(); } CdlDefinableBody::~CdlDefinableBody() { CYG_REPORT_FUNCNAME("CdlDefinable:: destructor"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); cdldefinablebody_cookie = CdlDefinableBody_Invalid; CYGDBG_MEMLEAK_DESTRUCTOR(); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- std::string CdlDefinableBody::get_class_name() const { CYG_REPORT_FUNCNAME("CdlDefinable::get_class_name"); CYG_PRECONDITION_THISC(); CYG_REPORT_RETURN(); return "definable"; } // ---------------------------------------------------------------------------- bool CdlDefinableBody::check_this(cyg_assert_class_zeal zeal) const { if (CdlDefinableBody_Magic != cdldefinablebody_cookie) { return false; } CYGDBG_MEMLEAK_CHECKTHIS(); return CdlNodeBody::check_this(zeal); } //}}} //{{{ add_property_parser() and check_properties() // ---------------------------------------------------------------------------- void CdlDefinableBody::add_property_parsers(std::vector<CdlInterpreterCommandEntry>& parsers) { CYG_REPORT_FUNCNAME("CdlDefinable::add_property_parsers"); static CdlInterpreterCommandEntry commands[] = { CdlInterpreterCommandEntry("no_define", &parse_no_define ), CdlInterpreterCommandEntry("define", &parse_define ), CdlInterpreterCommandEntry("define_format", &parse_define_format ), CdlInterpreterCommandEntry("define_proc", &parse_define_proc ), CdlInterpreterCommandEntry("if_define", &parse_if_define ), CdlInterpreterCommandEntry("", 0 ) }; for (int i = 0; commands[i].command != 0; i++) { std::vector<CdlInterpreterCommandEntry>::const_iterator j; for (j = parsers.begin(); j != parsers.end(); j++) { if (commands[i].name == j->name) { if (commands[i].command != j->command) { CYG_FAIL("Property names are being re-used"); } break; } } if (j == parsers.end()) { parsers.push_back(commands[i]); } } CdlNodeBody::add_property_parsers(parsers); CYG_REPORT_RETURN(); } void CdlDefinableBody::check_properties(CdlInterpreter interp) { CYG_REPORT_FUNCNAME("CdlDefinable::check_properties"); CYG_REPORT_FUNCARG2XV(this, interp); CYG_PRECONDITION_THISC(); CYG_PRECONDITION_CLASSC(interp); // There should be at most one each of no_define and define_format. if (count_properties(CdlPropertyId_NoDefine) > 1) { CdlParse::report_error(interp, "", "There should be at most one no_define property."); } if (count_properties(CdlPropertyId_DefineFormat) > 1) { CdlParse::report_error(interp, "", "There should be at most one define_format property."); } if (has_property(CdlPropertyId_NoDefine) && has_property(CdlPropertyId_DefineFormat)) { CdlParse::report_error(interp, "", "The no_define and define_format properties are mutually exclusive."); } // FIXME: the define_format property only makes sense for certain // flavors. However the flavor property may not have been processed yet. CdlNodeBody::check_properties(interp); CYG_REPORT_RETURN(); } //}}} //{{{ Definable properties // ---------------------------------------------------------------------------- // Syntax: no_define int CdlDefinableBody::parse_no_define(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_no_define", "result %d"); int result = CdlParse::parse_minimal_property(interp, argc, argv, CdlPropertyId_NoDefine, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: define <symbol> // The argument to "define" should be a valid C preprocessor symbol. static void parse_define_final_check(CdlInterpreter interp, CdlProperty_String prop) { CYG_REPORT_FUNCNAME("parse_define_final_check"); CYG_PRECONDITION_CLASSC(prop); CYG_PRECONDITION_CLASSC(interp); const std::string& str = prop->get_string(); if (!Cdl::is_valid_c_preprocessor_symbol(str)) { CdlParse::report_property_parse_error(interp, prop, str + " is not a valid C preprocessor symbol"); } // There may be a file option. At this stage the only valid filename // that can be used here is system.h std::string file_option = prop->get_option("file"); if (("" != file_option) && ("system.h" != file_option)) { CdlParse::report_property_parse_error(interp, prop, "Invalid -file option " + file_option); } // FIXME: validate the format string CYG_REPORT_RETURN(); } int CdlDefinableBody::parse_define(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_define", "result %d"); static char* options[] = { "file:", "format:", 0 }; int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_Define, options, &parse_define_final_check); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: define_format <string> // // FIXME: it is possible to apply some checks to the string, e.g. that there // is only one conversion operation. // // FIXME: also check that the flavor is sensible, define_format has no effect // for none or bool // // FIXME: enforce mutual exclusion with no_define int CdlDefinableBody::parse_define_format(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_format", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_DefineFormat, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // syntax: define_proc <tclcode> int CdlDefinableBody::parse_define_proc(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_define_proc", "result %d"); int result = CdlParse::parse_tclcode_property(interp, argc, argv, CdlPropertyId_DefineProc, 0, 0); CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // Syntax: if_define sym1 sym2 static void parse_if_define_final_check(CdlInterpreter interp, CdlProperty_StringVector prop) { CYG_REPORT_FUNCNAME("parse_if_define_final_check"); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITION_CLASSC(prop); // There should be exactly two entries in the vector, and both of them should be // valid preprocessor symbols. const std::vector<std::string>& strings = prop->get_strings(); if (2 != strings.size()) { CdlParse::report_property_parse_error(interp, prop, "There should be exactly two arguments."); } if (!Cdl::is_valid_c_preprocessor_symbol(strings[0])) { CdlParse::report_property_parse_error(interp, prop, strings[0] + " is not a valid C preprocessor symbol."); } if (!Cdl::is_valid_c_preprocessor_symbol(strings[1])) { CdlParse::report_property_parse_error(interp, prop, strings[1] + " is not a valid C preprocessor symbol."); } // There may be a file option. At this stage the only valid filename // that can be used here is system.h std::string file_option = prop->get_option("file"); if (("" != file_option) && ("system.h" != file_option)) { CdlParse::report_property_parse_error(interp, prop, "Invalid -file option " + file_option); } } int CdlDefinableBody::parse_if_define(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_if_define", "result %d"); char* options[] = { "file:", 0 }; int result = CdlParse::parse_stringvector_property(interp, argc, argv, CdlPropertyId_IfDefine, options, &parse_if_define_final_check, false); CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ generate_config_header() // ---------------------------------------------------------------------------- // This code needs to allow for the following properties. // // 1) no_define. This suppresses the default #define generation. // // 2) define_format <format_string. // // 3) define [-file <filename>][-format <format_string>] symbol // // 4) define_proc // // 5) if_define void CdlDefinableBody::generate_config_header(Tcl_Channel this_hdr, Tcl_Channel system_h) const { CYG_REPORT_FUNCNAME("CdlDefinable::generate_config_header"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); CdlLoadable loadable = get_owner(); CdlInterpreter interp = loadable->get_interpreter(); // This definable is known to be active. However it may or may not be enabled. CYG_PRECONDITIONC(is_active()); std::string name = get_name(); CdlValueFlavor flavor = CdlValueFlavor_Bool; std::string value = "1"; CdlConstValuable valuable = dynamic_cast<CdlConstValuable>(this); if (0 != valuable) { // It is always possible to check the enabled() flag. if (!valuable->is_enabled()) { CYG_REPORT_RETURN(); return; } // The value is only valid for BoolData and Data flavors, and may // not have been provided. If there is no value then this option // should not generate a #define flavor = valuable->get_flavor(); if ((CdlValueFlavor_BoolData == flavor) || (CdlValueFlavor_Data == flavor)) { value = valuable->get_value(); } } // Flavor and value are now both set to sensible strings. // First, check the no_define property. If this is present then the default // #define generation should be suppressed. if (!has_property(CdlPropertyId_NoDefine)) { // OK, it is necessary to generate at least one #define. // If this node is actually a loadable then the #define should go // into system.h, otherwise into the current header Tcl_Channel chan = this_hdr; if (dynamic_cast<CdlConstLoadable>((CdlConstNode)this) == loadable) { chan = system_h; } // For flavors None and Bool, there should be just one #define if ((CdlValueFlavor_None == flavor) || (CdlValueFlavor_Bool == flavor)) { std::string define = "#define " + name + " 1\n"; Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } else { // If there is a format string then that controls the default // value display. if (!has_property(CdlPropertyId_DefineFormat)) { std::string define = "#define " + name + " " + value + "\n"; Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } else { CdlProperty_String strprop = dynamic_cast<CdlProperty_String>(get_property(CdlPropertyId_DefineFormat)); CYG_ASSERT_CLASSC(strprop); std::string format = strprop->get_string(); std::string cmd = "return \"#define " + name + " [format " + format + " " + value + "]\n\""; std::string define; if (TCL_OK != interp->eval(cmd, define)) { throw CdlInputOutputException("Internal error executing tcl fragment to process define_format property"); } Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } // There may also be a separate #define of the form <name>_<value>, // if that is a valid preprocessor symbol. std::string tmp = name + "_" + value; if (Cdl::is_valid_c_preprocessor_symbol(tmp)) { tmp = "#define "+ tmp + "\n"; Tcl_Write(chan, const_cast<char*>(tmp.c_str()), -1); } // For loadables, add additional version information to system_h if (dynamic_cast<CdlConstLoadable>((CdlConstNode)this) == loadable) { system_h_add_package_versioning(system_h, name, value); } } } // Next, check for any additional define properties std::vector<CdlProperty> define_props; get_properties(CdlPropertyId_Define, define_props); std::vector<CdlProperty>::const_iterator prop_i; for (prop_i = define_props.begin(); prop_i != define_props.end(); prop_i++) { CdlProperty_String strprop = dynamic_cast<CdlProperty_String>(*prop_i); CYG_ASSERT_CLASSC(strprop); std::string symbol = strprop->get_string(); std::string file = strprop->get_option("file"); Tcl_Channel chan = this_hdr; if (("" != file) && ("system.h" == file)) { chan = system_h; } if ((CdlValueFlavor_None == flavor) || (CdlValueFlavor_Bool == flavor)) { std::string define = "#define " + symbol + " 1\n"; Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } else { std::string format = strprop->get_option("format"); if ("" == format) { std::string define = "#define " + symbol + " " + value + "\n"; Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } else { std::string cmd = "return \"#define " + symbol + " [format " + format + " " + value + "]\n\""; std::string define; if (TCL_OK != interp->eval(cmd, define)) { throw CdlInputOutputException("Internal error executing tcl fragment to process format option"); } Tcl_Write(chan, const_cast<char*>(define.c_str()), -1); } std::string tmp = symbol + "_" + value; if (Cdl::is_valid_c_preprocessor_symbol(tmp)) { tmp = "#define " + tmp + "\n"; Tcl_Write(chan, const_cast<char*>(tmp.c_str()), -1); } } } // Now check for if_define properties std::vector<CdlProperty> if_define_props; get_properties(CdlPropertyId_IfDefine, if_define_props); for (prop_i = if_define_props.begin(); prop_i != if_define_props.end(); prop_i++) { CdlProperty_StringVector strprop = dynamic_cast<CdlProperty_StringVector>(*prop_i); CYG_ASSERT_CLASSC(strprop); CYG_ASSERTC(2 == strprop->get_number_of_strings()); std::string sym1 = strprop->get_string(0); std::string sym2 = strprop->get_string(1); Tcl_Channel chan = this_hdr; std::string file = strprop->get_option("file"); if (("" != file) && ("system.h" == file)) { chan = system_h; } std::string data = "#ifdef " + sym1 + "\n# define " + sym2 + " 1\n#endif\n"; Tcl_Write(chan, const_cast<char*>(data.c_str()), -1); } // And define_proc properties std::vector<CdlProperty> define_proc_props; get_properties(CdlPropertyId_DefineProc, define_proc_props); for (prop_i = define_proc_props.begin(); prop_i != define_proc_props.end(); prop_i++) { CdlProperty_TclCode codeprop = dynamic_cast<CdlProperty_TclCode>(*prop_i); CYG_ASSERT_CLASSC(codeprop); cdl_tcl_code code = codeprop->get_code(); std::string result; if (TCL_OK != interp->eval(code, result)) { throw CdlInputOutputException("Error evaluating define_proc property for " + name + "\n" + result); } } CYG_REPORT_RETURN(); } //}}} //}}} //{{{ CdlDefineLoadableBody //{{{ Basics // ---------------------------------------------------------------------------- CdlDefineLoadableBody::CdlDefineLoadableBody() { CYG_REPORT_FUNCNAME("CdlDefineLoadable:: default constructor"); CYG_REPORT_FUNCARG1XV(this); cdldefineloadablebody_cookie = CdlDefineLoadableBody_Magic; CYGDBG_MEMLEAK_CONSTRUCTOR(); CYG_POSTCONDITION_THISC(); CYG_REPORT_RETURN(); } CdlDefineLoadableBody::~CdlDefineLoadableBody() { CYG_REPORT_FUNCNAME("CdlDefineLoadable:: destructor"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); cdldefineloadablebody_cookie = CdlDefineLoadableBody_Invalid; CYGDBG_MEMLEAK_DESTRUCTOR(); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- std::string CdlDefineLoadableBody::get_class_name() const { CYG_REPORT_FUNCNAME("CdlDefineLoadable::get_class_name"); CYG_PRECONDITION_THISC(); CYG_REPORT_RETURN(); return "define_loadable"; } // ---------------------------------------------------------------------------- bool CdlDefineLoadableBody::check_this(cyg_assert_class_zeal zeal) const { if (CdlDefineLoadableBody_Magic != cdldefineloadablebody_cookie) { return false; } CYGDBG_MEMLEAK_CHECKTHIS(); return CdlLoadableBody::check_this(zeal) && CdlNodeBody::check_this(zeal); } //}}} //{{{ Property parsing // ---------------------------------------------------------------------------- void CdlDefineLoadableBody::add_property_parsers(std::vector<CdlInterpreterCommandEntry>& parsers) { CYG_REPORT_FUNCNAME("CdlDefineLoadable::add_property_parsers"); static CdlInterpreterCommandEntry commands[] = { CdlInterpreterCommandEntry("define_header", &parse_define_header), CdlInterpreterCommandEntry("", 0 ) }; for (int i = 0; commands[i].command != 0; i++) { std::vector<CdlInterpreterCommandEntry>::const_iterator j; for (j = parsers.begin(); j != parsers.end(); j++) { if (commands[i].name == j->name) { if (commands[i].command != j->command) { CYG_FAIL("Property names are being re-used"); } break; } } if (j == parsers.end()) { parsers.push_back(commands[i]); } } CdlNodeBody::add_property_parsers(parsers); CYG_REPORT_RETURN(); } void CdlDefineLoadableBody::check_properties(CdlInterpreter interp) { CYG_REPORT_FUNCNAME("CdlDefineLoadable::check_properties"); CYG_REPORT_FUNCARG2XV(this, interp); CYG_PRECONDITION_THISC(); CYG_PRECONDITION_CLASSC(interp); // There should be at most one define_header property int count = count_properties(CdlPropertyId_DefineHeader); if (count> 1) { CdlParse::report_error(interp, "", "There should be at most one define_header property."); } // FIXME: filename validation CdlNodeBody::check_properties(interp); CYG_REPORT_RETURN(); } // ---------------------------------------------------------------------------- // syntax: define_header <header file name> int CdlDefineLoadableBody::parse_define_header(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_define_header", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_DefineHeader, 0, 0); CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ generate_config_header() // ---------------------------------------------------------------------------- void CdlDefineLoadableBody::generate_config_header(Tcl_Channel this_hdr, Tcl_Channel system_h) const { CYG_REPORT_FUNCNAME("CdlDefineLoadable::generate_config_header"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); CdlInterpreter interp = get_interpreter(); Tcl_RegisterChannel(interp->get_tcl_interpreter(), this_hdr); Tcl_RegisterChannel(interp->get_tcl_interpreter(), system_h); CdlInterpreterBody::ContextSupport(interp, std::string("Package ") + this->get_name() + ", header file generation"); try { interp->set_variable("::cdl_header", Tcl_GetChannelName(this_hdr)); interp->set_variable("::cdl_system_header", Tcl_GetChannelName(system_h)); const std::vector<CdlNode>& contents = get_owned(); std::vector<CdlNode>::const_iterator node_i; for (node_i = contents.begin(); node_i != contents.end(); node_i++) { CdlDefinable definable = dynamic_cast<CdlDefinable>(*node_i); if (0 == definable) { continue; } if (!definable->is_active()) { continue; } definable->generate_config_header(this_hdr, system_h); } interp->unset_variable("::cdl_header"); interp->unset_variable("::cdl_system_header"); } catch(...) { Tcl_UnregisterChannel(interp->get_tcl_interpreter(), this_hdr); Tcl_UnregisterChannel(interp->get_tcl_interpreter(), system_h); throw; } Tcl_UnregisterChannel(interp->get_tcl_interpreter(), this_hdr); Tcl_UnregisterChannel(interp->get_tcl_interpreter(), system_h); CYG_REPORT_RETURN(); } //}}} //{{{ get_config_headers() // ---------------------------------------------------------------------------- // What header file should be generated for this loadable? // // If there is a define_header property then this should be used. // Otherwise a filename is constructed from the loadable's name. std::string CdlDefineLoadableBody::get_config_header() const { CYG_REPORT_FUNCNAME("CdlDefineLoadable::get_config_headers"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); std::string result = ""; CdlProperty prop = get_property(CdlPropertyId_DefineHeader); if (0 != prop) { CdlProperty_String string_prop = dynamic_cast<CdlProperty_String>(prop); CYG_ASSERT_CLASSC(string_prop); result = string_prop->get_string(); } else { std::string tmp = get_name(); result = Cdl::get_short_form(tmp); result += ".h"; } CYG_REPORT_RETURN(); return result; } //}}} //}}} //{{{ CdlToplevel //{{{ CdlToplevel::get_build_info() // ---------------------------------------------------------------------------- // Essentially this code involves iterating over the loadables vector, // looking for BuildLoadables and invoking their update_build_info() // member function. In addition, if there is currently some data in // the build_info vector (probably from a previous call) then that // must be cleared. void CdlToplevelBody::get_build_info(CdlBuildInfo& build_info) { CYG_REPORT_FUNCNAME("CdlToplevel::get_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); if (0 != build_info.entries.size()) { build_info.entries.clear(); } const std::vector<CdlLoadable>& loadables = get_loadables(); std::vector<CdlLoadable>::const_iterator load_i; for (load_i = loadables.begin(); load_i != loadables.end(); load_i++) { CdlConstBuildLoadable bl = dynamic_cast<CdlConstBuildLoadable>(*load_i); if (0 != bl) { bl->update_build_info(build_info); } } CYG_REPORT_RETURN(); } //}}} //{{{ CdlToplevel::get_all_build_info() // ---------------------------------------------------------------------------- // This is just like get_build_info(), but calls a different // BuildLoadable member. void CdlToplevelBody::get_all_build_info(CdlBuildInfo& build_info) { CYG_REPORT_FUNCNAME("CdlToplevel::get_all_build_info"); CYG_REPORT_FUNCARG2XV(this, &build_info); CYG_PRECONDITION_THISC(); if (0 != build_info.entries.size()) { build_info.entries.clear(); } const std::vector<CdlLoadable>& loadables = get_loadables(); std::vector<CdlLoadable>::const_iterator load_i; for (load_i = loadables.begin(); load_i != loadables.end(); load_i++) { CdlConstBuildLoadable bl = dynamic_cast<CdlConstBuildLoadable>(*load_i); if (0 != bl) { bl->update_all_build_info(build_info); } } CYG_REPORT_RETURN(); } //}}} //{{{ CdlToplevel::generate_config_headers() // ---------------------------------------------------------------------------- // Generating the config headers. This involves the following steps: // // 1) for every DefineLoadable, find out what header file should // be generated. Note that some loadables may share a header file. // // 2) create a temporary version of system.h. Note that it is not // a good idea to just overwrite an existing system.h, chances // are pretty good that the file will not have changed, and // updating it unnecessarily will result in unnecessary rebuilds // due to header file dependencies. // // 3) for each file that should be generated, create a temporary // version and allow all applicable loadables to update it. // A utility to compare two files and do the right thing. // This requires some simple Tcl code. static void compare_and_copy(CdlInterpreter interp, std::string file1, std::string file2) { CYG_REPORT_FUNCNAME("compare_and_copy"); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITIONC("" != file1); CYG_PRECONDITIONC("" != file2); CYG_PRECONDITIONC(file1 != file2); static char compare_and_copy_script[] = "\ if {[file exists \"$::cdl_compare_and_copy_file2\"] == 0} { \n\ catch { file rename -- $::cdl_compare_and_copy_file1 $::cdl_compare_and_copy_file2} \n\ return \n\ } \n\ set fd [open \"$::cdl_compare_and_copy_file1\" r] \n\ set data1 [read $fd] \n\ close $fd \n\ set fd [open \"$::cdl_compare_and_copy_file2\" r] \n\ set data2 [read $fd] \n\ close $fd \n\ if {$data1 == $data2} { \n\ file delete \"$::cdl_compare_and_copy_file1\" \n\ } else { \n\ catch { file rename -force -- $::cdl_compare_and_copy_file1 $::cdl_compare_and_copy_file2 } \n\ } \n\ "; interp->set_variable("::cdl_compare_and_copy_file1", file1); interp->set_variable("::cdl_compare_and_copy_file2", file2); std::string tcl_result; if (TCL_OK != interp->eval(compare_and_copy_script, tcl_result)) { throw CdlInputOutputException("internal error manipulating temporary header " + file1 + " and target " + file2 + "\n" + tcl_result); } } void CdlToplevelBody::generate_config_headers(std::string directory) { CYG_REPORT_FUNCNAME("CdlToplevel::generate_config_headers"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); CYG_ASSERTC("" != directory); // Replace any backslashes in the path with forward slashes. The // latter are used throughout the library // NOTE: this is not i18n-friendly. for (unsigned int i = 0; i < directory.size(); i++) { if ('\\' == directory[i]) { directory[i] = '/'; } } CdlInterpreter interp = get_interpreter(); std::string tcl_result; if ((TCL_OK != interp->eval("file isdirectory \"" + directory + "\"", tcl_result)) || (tcl_result != "1")) { throw CdlInputOutputException("target " + directory + " is not a valid existing directory."); } std::vector<std::pair<CdlDefineLoadable, std::string> > headers; const std::vector<CdlLoadable>& loadables = get_loadables(); std::vector<CdlLoadable>::const_iterator load_i; for (load_i = loadables.begin(); load_i != loadables.end(); load_i++) { CdlDefineLoadable tmp = dynamic_cast<CdlDefineLoadable>(*load_i); if (0 != tmp) { std::string hdr = tmp->get_config_header(); headers.push_back(std::make_pair(tmp, hdr)); } } static char banner_format[] = "#ifndef CYGONCE_PKGCONF_%s\n\ #define CYGONCE_PKGCONF_%s\n\ /*\n\ * File <pkgconf/%s>\n\ *\n\ * This file is generated automatically by the configuration\n\ * system. It should not be edited. Any changes to this file\n\ * may be overwritten.\n\ */\n\ \n"; #ifdef _WIN32 // Create three channels which Tcl will use for standard streams // if these streams do not already exist. This avoids a Tcl // problem which can prevent closure of system.h. (FIXME) Tcl_Channel stdin_chan = Tcl_OpenFileChannel(interp->get_tcl_interpreter(), "nul", "w", 0666); Tcl_Channel stdout_chan = Tcl_OpenFileChannel(interp->get_tcl_interpreter(), "nul", "w", 0666); Tcl_Channel stderr_chan = Tcl_OpenFileChannel(interp->get_tcl_interpreter(), "nul", "w", 0666); Tcl_RegisterChannel(0, stdin_chan); Tcl_RegisterChannel(0, stdout_chan); Tcl_RegisterChannel(0, stderr_chan); #endif // Assume for now that files __libcdl_file1 and __libcdl_file2 are // legal on all platforms of interest, and that nobody is going to // export to these. std::string system_h_name = directory + "/__libcdl_file1"; Tcl_Channel system_h = Tcl_OpenFileChannel(interp->get_tcl_interpreter(), const_cast<char*>(system_h_name.c_str()), "w", 0666); if (0 == system_h) { throw CdlInputOutputException("Unable to open file " + system_h_name + "\n" + interp->get_result()); } // The channel will be registered and unregistered in several // different interpreters. This call prevents the channel from // disappearing prematurely. Tcl_RegisterChannel(0, system_h); // Make sure that this operation is undone if necessary. try { // Now fill in system.h with the appropriate data. Start with the banner. char local_buf[512]; sprintf(local_buf, banner_format, "SYSTEM_H", "SYSTEM_H", "system.h"); Tcl_Write(system_h, local_buf, -1); // Add generic version information system_h_add_version_header(system_h); // The rest of system.h will be filled in by the following loop. // // Walk down the previously constructed headers vector, create // appropriate files, and let each DefineLoadable fill in the // file for itself. std::vector<std::pair<CdlDefineLoadable, std::string> >::iterator outer_i; std::vector<std::pair<CdlDefineLoadable, std::string> >::iterator inner_i; for (outer_i = headers.begin(); outer_i != headers.end(); outer_i++) { if ("" == outer_i->second) { continue; } std::string target_name = outer_i->second; std::string header_name = directory + "/__libcdl_file2"; Tcl_Channel header_h = Tcl_OpenFileChannel(interp->get_tcl_interpreter(), const_cast<char*>(header_name.c_str()), "w", 0666); if (0 == header_h) { throw CdlInputOutputException("Unable to open file " + header_name + "\n" + interp->get_result()); } // The channel may be used in several different interpreters, so // do an extra register operation Tcl_RegisterChannel(0, header_h); try { // Output the banner. This requires an all-upper-case version of the // header name. std::string upper_case; for (unsigned int i = 0; i < target_name.size(); i++) { if (islower(target_name[i])) { upper_case += toupper(target_name[i]); } else if ('.' == target_name[i]) { upper_case += '_'; } else { upper_case += target_name[i]; } } sprintf(local_buf, banner_format, upper_case.c_str(), upper_case.c_str(), target_name.c_str()); Tcl_Write(header_h, local_buf, -1); // Now iterate over all the loadables looking for ones which // should generate #define's for this header, and invoke the // appropriate member function. for (inner_i = outer_i; inner_i != headers.end(); inner_i++) { if (inner_i->second == target_name) { inner_i->first->generate_config_header(header_h, system_h); inner_i->second = ""; } } // The header file has now been updated. Close it and decide whether // or not to replace the old version Tcl_Write(header_h, "\n#endif\n", -1); } catch(...) { Tcl_UnregisterChannel(0, header_h); throw; } Tcl_UnregisterChannel(0, header_h); compare_and_copy(interp, header_name, directory + "/" + target_name); } Tcl_Write(system_h, "\n#endif\n", -1); } catch(...) { Tcl_UnregisterChannel(0, system_h); throw; } // This call to UnregisterChannel automatically closes the // channel, there is no need for an explicit Tcl_Close() call. Tcl_UnregisterChannel(0, system_h); #ifdef _WIN32 Tcl_UnregisterChannel(0, stderr_chan); Tcl_UnregisterChannel(0, stdout_chan); Tcl_UnregisterChannel(0, stdin_chan); #endif compare_and_copy(interp, system_h_name, directory +"/system.h"); } //}}} //{{{ CdlToplevel::get_config_headers() // ---------------------------------------------------------------------------- // Return details of the header files that should be generated. This // allows higher-level code to detect files that should no longer // be present, amongst other uses. // // The main complication is that some packages may wish to share the // same header file, especially hardware packages. void CdlToplevelBody::get_config_headers(std::vector<std::string>& headers) { CYG_REPORT_FUNCNAME("CdlToplevelBody::get_config_headers"); CYG_REPORT_FUNCARG2XV(this, &headers); CYG_PRECONDITION_THISC(); // Allow the vector argument to be re-used in multiple calls. // Strictly speaking this is better done at the application // level, but the behaviour is consistent with get_build_info(); headers.clear(); // There will always be a system.h header file with details // of the loadables. // FIXME: the name of this file should probably be controllable headers.push_back("system.h"); // Now check each loadable and adds its header file, assuming // this is unique. const std::vector<CdlLoadable>& loadables = get_loadables(); std::vector<CdlLoadable>::const_iterator i; for (i = loadables.begin(); i != loadables.end(); i++) { CdlDefineLoadable current = dynamic_cast<CdlDefineLoadable>(*i); if (0 != current) { std::string its_file = current->get_config_header(); CYG_LOOP_INVARIANTC("" != its_file); if (std::find(headers.begin(), headers.end(), its_file) == headers.end()) { headers.push_back(its_file); } } } CYG_REPORT_RETURN(); } //}}} //{{{ CdlToplevel::generate_build_tree() void CdlToplevelBody::generate_build_tree(std::string build_tree, std::string install_tree) { } //}}} //}}}
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