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/** Licensed to the Apache Software Foundation (ASF) under one* or more contributor license agreements. See the NOTICE file* distributed with this work for additional information* regarding copyright ownership. The ASF licenses this file* to you under the Apache License, Version 2.0 (the* "License"); you may not use this file except in compliance* with the License. You may obtain a copy of the License at** http://www.apache.org/licenses/LICENSE-2.0** Unless required by applicable law or agreed to in writing,* software distributed under the License is distributed on an* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY* KIND, either express or implied. See the License for the* specific language governing permissions and limitations* under the License.*//*** thrift - a lightweight cross-language rpc/serialization tool** This file contains the main compiler engine for Thrift, which invokes the* scanner/parser to build the thrift object tree. The interface generation* code for each language lives in a file by the language name under the* generate/ folder, and all parse structures live in parse/**/#include <cassert>#include <stdlib.h>#include <stdio.h>#include <stdarg.h>#include <string>#include <algorithm>#include <sys/types.h>#include <sys/stat.h>#include <errno.h>#include <limits.h>#ifdef MINGW# include <windows.h> /* for GetFullPathName */#endif// Careful: must include globals first for extern definitions#include "globals.h"#include "main.h"#include "parse/t_program.h"#include "parse/t_scope.h"#include "generate/t_generator.h"#include "version.h"using namespace std;/*** Global program tree*/t_program* g_program;/*** Global types*/t_type* g_type_void;t_type* g_type_string;t_type* g_type_binary;t_type* g_type_slist;t_type* g_type_bool;t_type* g_type_byte;t_type* g_type_i16;t_type* g_type_i32;t_type* g_type_i64;t_type* g_type_double;/*** Global scope*/t_scope* g_scope;/*** Parent scope to also parse types*/t_scope* g_parent_scope;/*** Prefix for putting types in parent scope*/string g_parent_prefix;/*** Parsing pass*/PARSE_MODE g_parse_mode;/*** Current directory of file being parsed*/string g_curdir;/*** Current file being parsed*/string g_curpath;/*** Search path for inclusions*/vector<string> g_incl_searchpath;/*** Should C++ include statements use path prefixes for other thrift-generated* header files*/bool g_cpp_use_include_prefix = false;/*** Global debug state*/int g_debug = 0;/*** Strictness level*/int g_strict = 127;/*** Warning level*/int g_warn = 1;/*** Verbose output*/int g_verbose = 0;/*** Global time string*/char* g_time_str;/*** The last parsed doctext comment.*/char* g_doctext;/*** The location of the last parsed doctext comment.*/int g_doctext_lineno;/*** Flags to control code generation*/bool gen_cpp = false;bool gen_dense = false;bool gen_java = false;bool gen_javabean = false;bool gen_rb = false;bool gen_py = false;bool gen_py_newstyle = false;bool gen_xsd = false;bool gen_php = false;bool gen_phpi = false;bool gen_phps = true;bool gen_phpa = false;bool gen_phpo = false;bool gen_rest = false;bool gen_perl = false;bool gen_erl = false;bool gen_ocaml = false;bool gen_hs = false;bool gen_cocoa = false;bool gen_csharp = false;bool gen_st = false;bool gen_recurse = false;/*** MinGW doesn't have realpath, so use fallback implementation in that case,* otherwise this just calls through to realpath*/char *saferealpath(const char *path, char *resolved_path) {#ifdef MINGWchar buf[MAX_PATH];char* basename;DWORD len = GetFullPathName(path, MAX_PATH, buf, &basename);if (len == 0 || len > MAX_PATH - 1){strcpy(resolved_path, path);} else {CharLowerBuff(buf, len);strcpy(resolved_path, buf);}return resolved_path;#elsereturn realpath(path, resolved_path);#endif}/*** Report an error to the user. This is called yyerror for historical* reasons (lex and yacc expect the error reporting routine to be called* this). Call this function to report any errors to the user.* yyerror takes printf style arguments.** @param fmt C format string followed by additional arguments*/void yyerror(const char* fmt, ...) {va_list args;fprintf(stderr,"[ERROR:%s:%d] (last token was '%s')\n",g_curpath.c_str(),yylineno,yytext);va_start(args, fmt);vfprintf(stderr, fmt, args);va_end(args);fprintf(stderr, "\n");}/*** Prints a debug message from the parser.** @param fmt C format string followed by additional arguments*/void pdebug(const char* fmt, ...) {if (g_debug == 0) {return;}va_list args;printf("[PARSE:%d] ", yylineno);va_start(args, fmt);vprintf(fmt, args);va_end(args);printf("\n");}/*** Prints a verbose output mode message** @param fmt C format string followed by additional arguments*/void pverbose(const char* fmt, ...) {if (g_verbose == 0) {return;}va_list args;va_start(args, fmt);vprintf(fmt, args);va_end(args);}/*** Prints a warning message** @param fmt C format string followed by additional arguments*/void pwarning(int level, const char* fmt, ...) {if (g_warn < level) {return;}va_list args;printf("[WARNING:%s:%d] ", g_curpath.c_str(), yylineno);va_start(args, fmt);vprintf(fmt, args);va_end(args);printf("\n");}/*** Prints a failure message and exits** @param fmt C format string followed by additional arguments*/void failure(const char* fmt, ...) {va_list args;fprintf(stderr, "[FAILURE:%s:%d] ", g_curpath.c_str(), yylineno);va_start(args, fmt);vfprintf(stderr, fmt, args);va_end(args);printf("\n");exit(1);}/*** Converts a string filename into a thrift program name*/string program_name(string filename) {string::size_type slash = filename.rfind("/");if (slash != string::npos) {filename = filename.substr(slash+1);}string::size_type dot = filename.rfind(".");if (dot != string::npos) {filename = filename.substr(0, dot);}return filename;}/*** Gets the directory path of a filename*/string directory_name(string filename) {string::size_type slash = filename.rfind("/");// No slash, just use the current directoryif (slash == string::npos) {return ".";}return filename.substr(0, slash);}/*** Finds the appropriate file path for the given filename*/string include_file(string filename) {// Absolute path? Just try thatif (filename[0] == '/') {// Realpath!char rp[PATH_MAX];if (saferealpath(filename.c_str(), rp) == NULL) {pwarning(0, "Cannot open include file %s\n", filename.c_str());return std::string();}// Stat this filestruct stat finfo;if (stat(rp, &finfo) == 0) {return rp;}} else { // relative path, start searching// new search path with current dir globalvector<string> sp = g_incl_searchpath;sp.insert(sp.begin(), g_curdir);// iterate through pathsvector<string>::iterator it;for (it = sp.begin(); it != sp.end(); it++) {string sfilename = *(it) + "/" + filename;// Realpath!char rp[PATH_MAX];if (saferealpath(sfilename.c_str(), rp) == NULL) {continue;}// Stat this filesstruct stat finfo;if (stat(rp, &finfo) == 0) {return rp;}}}// Uh ohpwarning(0, "Could not find include file %s\n", filename.c_str());return std::string();}/*** Clears any previously stored doctext string.* Also prints a warning if we are discarding information.*/void clear_doctext() {if (g_doctext != NULL) {pwarning(2, "Uncaptured doctext at on line %d.", g_doctext_lineno);}free(g_doctext);g_doctext = NULL;}/*** Cleans up text commonly found in doxygen-like comments** Warning: if you mix tabs and spaces in a non-uniform way,* you will get what you deserve.*/char* clean_up_doctext(char* doctext) {// Convert to C++ string, and remove Windows's carriage returns.string docstring = doctext;docstring.erase(remove(docstring.begin(), docstring.end(), '\r'),docstring.end());// Separate into lines.vector<string> lines;string::size_type pos = string::npos;string::size_type last;while (true) {last = (pos == string::npos) ? 0 : pos+1;pos = docstring.find('\n', last);if (pos == string::npos) {// First bit of cleaning. If the last line is only whitespace, drop it.string::size_type nonwhite = docstring.find_first_not_of(" \t", last);if (nonwhite != string::npos) {lines.push_back(docstring.substr(last));}break;}lines.push_back(docstring.substr(last, pos-last));}// A very profound docstring.if (lines.empty()) {return NULL;}// Clear leading whitespace from the first line.pos = lines.front().find_first_not_of(" \t");lines.front().erase(0, pos);// If every nonblank line after the first has the same number of spaces/tabs,// then a star, remove them.bool have_prefix = true;bool found_prefix = false;string::size_type prefix_len = 0;vector<string>::iterator l_iter;for (l_iter = lines.begin()+1; l_iter != lines.end(); ++l_iter) {if (l_iter->empty()) {continue;}pos = l_iter->find_first_not_of(" \t");if (!found_prefix) {if (pos != string::npos) {if (l_iter->at(pos) == '*') {found_prefix = true;prefix_len = pos;} else {have_prefix = false;break;}} else {// Whitespace-only line. Truncate it.l_iter->clear();}} else if (l_iter->size() > pos&& l_iter->at(pos) == '*'&& pos == prefix_len) {// Business as usual.} else if (pos == string::npos) {// Whitespace-only line. Let's truncate it for them.l_iter->clear();} else {// The pattern has been broken.have_prefix = false;break;}}// If our prefix survived, delete it from every line.if (have_prefix) {// Get the star too.prefix_len++;for (l_iter = lines.begin()+1; l_iter != lines.end(); ++l_iter) {l_iter->erase(0, prefix_len);}}// Now delete the minimum amount of leading whitespace from each line.prefix_len = string::npos;for (l_iter = lines.begin()+1; l_iter != lines.end(); ++l_iter) {if (l_iter->empty()) {continue;}pos = l_iter->find_first_not_of(" \t");if (pos != string::npos&& (prefix_len == string::npos || pos < prefix_len)) {prefix_len = pos;}}// If our prefix survived, delete it from every line.if (prefix_len != string::npos) {for (l_iter = lines.begin()+1; l_iter != lines.end(); ++l_iter) {l_iter->erase(0, prefix_len);}}// Remove trailing whitespace from every line.for (l_iter = lines.begin(); l_iter != lines.end(); ++l_iter) {pos = l_iter->find_last_not_of(" \t");if (pos != string::npos && pos != l_iter->length()-1) {l_iter->erase(pos+1);}}// If the first line is empty, remove it.// Don't do this earlier because a lot of steps skip the first line.if (lines.front().empty()) {lines.erase(lines.begin());}// Now rejoin the lines and copy them back into doctext.docstring.clear();for (l_iter = lines.begin(); l_iter != lines.end(); ++l_iter) {docstring += *l_iter;docstring += '\n';}assert(docstring.length() <= strlen(doctext));strcpy(doctext, docstring.c_str());return doctext;}/** Set to true to debug docstring parsing */static bool dump_docs = false;/*** Dumps docstrings to stdout* Only works for top-level definitions and the whole program doc* (i.e., not enum constants, struct fields, or functions.*/void dump_docstrings(t_program* program) {string progdoc = program->get_doc();if (!progdoc.empty()) {printf("Whole program doc:\n%s\n", progdoc.c_str());}const vector<t_typedef*>& typedefs = program->get_typedefs();vector<t_typedef*>::const_iterator t_iter;for (t_iter = typedefs.begin(); t_iter != typedefs.end(); ++t_iter) {t_typedef* td = *t_iter;if (td->has_doc()) {printf("typedef %s:\n%s\n", td->get_name().c_str(), td->get_doc().c_str());}}const vector<t_enum*>& enums = program->get_enums();vector<t_enum*>::const_iterator e_iter;for (e_iter = enums.begin(); e_iter != enums.end(); ++e_iter) {t_enum* en = *e_iter;if (en->has_doc()) {printf("enum %s:\n%s\n", en->get_name().c_str(), en->get_doc().c_str());}}const vector<t_const*>& consts = program->get_consts();vector<t_const*>::const_iterator c_iter;for (c_iter = consts.begin(); c_iter != consts.end(); ++c_iter) {t_const* co = *c_iter;if (co->has_doc()) {printf("const %s:\n%s\n", co->get_name().c_str(), co->get_doc().c_str());}}const vector<t_struct*>& structs = program->get_structs();vector<t_struct*>::const_iterator s_iter;for (s_iter = structs.begin(); s_iter != structs.end(); ++s_iter) {t_struct* st = *s_iter;if (st->has_doc()) {printf("struct %s:\n%s\n", st->get_name().c_str(), st->get_doc().c_str());}}const vector<t_struct*>& xceptions = program->get_xceptions();vector<t_struct*>::const_iterator x_iter;for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {t_struct* xn = *x_iter;if (xn->has_doc()) {printf("xception %s:\n%s\n", xn->get_name().c_str(), xn->get_doc().c_str());}}const vector<t_service*>& services = program->get_services();vector<t_service*>::const_iterator v_iter;for (v_iter = services.begin(); v_iter != services.end(); ++v_iter) {t_service* sv = *v_iter;if (sv->has_doc()) {printf("service %s:\n%s\n", sv->get_name().c_str(), sv->get_doc().c_str());}}}/*** Call generate_fingerprint for every structure and enum.*/void generate_all_fingerprints(t_program* program) {const vector<t_struct*>& structs = program->get_structs();vector<t_struct*>::const_iterator s_iter;for (s_iter = structs.begin(); s_iter != structs.end(); ++s_iter) {t_struct* st = *s_iter;st->generate_fingerprint();}const vector<t_struct*>& xceptions = program->get_xceptions();vector<t_struct*>::const_iterator x_iter;for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {t_struct* st = *x_iter;st->generate_fingerprint();}const vector<t_enum*>& enums = program->get_enums();vector<t_enum*>::const_iterator e_iter;for (e_iter = enums.begin(); e_iter != enums.end(); ++e_iter) {t_enum* e = *e_iter;e->generate_fingerprint();}g_type_void->generate_fingerprint();// If you want to generate fingerprints for implicit structures, start here./*const vector<t_service*>& services = program->get_services();vector<t_service*>::const_iterator v_iter;for (v_iter = services.begin(); v_iter != services.end(); ++v_iter) {t_service* sv = *v_iter;}*/}/*** Prints the version number*/void version() {printf("Thrift version %s-%s\n", THRIFT_VERSION, THRIFT_REVISION);}/*** Diplays the usage message and then exits with an error code.*/void usage() {fprintf(stderr, "Usage: thrift [options] file\n");fprintf(stderr, "Options:\n");fprintf(stderr, " -version Print the compiler version\n");fprintf(stderr, " -o dir Set the output directory for gen-* packages\n");fprintf(stderr, " (default: current directory)\n");fprintf(stderr, " -I dir Add a directory to the list of directories\n");fprintf(stderr, " searched for include directives\n");fprintf(stderr, " -nowarn Suppress all compiler warnings (BAD!)\n");fprintf(stderr, " -strict Strict compiler warnings on\n");fprintf(stderr, " -v[erbose] Verbose mode\n");fprintf(stderr, " -r[ecurse] Also generate included files\n");fprintf(stderr, " -debug Parse debug trace to stdout\n");fprintf(stderr, " --gen STR Generate code with a dynamically-registered generator.\n");fprintf(stderr, " STR has the form language[:key1=val1[,key2,[key3=val3]]].\n");fprintf(stderr, " Keys and values are options passed to the generator.\n");fprintf(stderr, " Many options will not require values.\n");fprintf(stderr, "\n");fprintf(stderr, "Available generators (and options):\n");t_generator_registry::gen_map_t gen_map = t_generator_registry::get_generator_map();t_generator_registry::gen_map_t::iterator iter;for (iter = gen_map.begin(); iter != gen_map.end(); ++iter) {fprintf(stderr, " %s (%s):\n",iter->second->get_short_name().c_str(),iter->second->get_long_name().c_str());fprintf(stderr, "%s", iter->second->get_documentation().c_str());}exit(1);}/*** You know, when I started working on Thrift I really thought it wasn't going* to become a programming language because it was just a generator and it* wouldn't need runtime type information and all that jazz. But then we* decided to add constants, and all of a sudden that means runtime type* validation and inference, except the "runtime" is the code generator* runtime. Shit. I've been had.*/void validate_const_rec(std::string name, t_type* type, t_const_value* value) {if (type->is_void()) {throw "type error: cannot declare a void const: " + name;}if (type->is_base_type()) {t_base_type::t_base tbase = ((t_base_type*)type)->get_base();switch (tbase) {case t_base_type::TYPE_STRING:if (value->get_type() != t_const_value::CV_STRING) {throw "type error: const \"" + name + "\" was declared as string";}break;case t_base_type::TYPE_BOOL:if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as bool";}break;case t_base_type::TYPE_BYTE:if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as byte";}break;case t_base_type::TYPE_I16:if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as i16";}break;case t_base_type::TYPE_I32:if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as i32";}break;case t_base_type::TYPE_I64:if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as i64";}break;case t_base_type::TYPE_DOUBLE:if (value->get_type() != t_const_value::CV_INTEGER &&value->get_type() != t_const_value::CV_DOUBLE) {throw "type error: const \"" + name + "\" was declared as double";}break;default:throw "compiler error: no const of base type " + t_base_type::t_base_name(tbase) + name;}} else if (type->is_enum()) {if (value->get_type() != t_const_value::CV_INTEGER) {throw "type error: const \"" + name + "\" was declared as enum";}} else if (type->is_struct() || type->is_xception()) {if (value->get_type() != t_const_value::CV_MAP) {throw "type error: const \"" + name + "\" was declared as struct/xception";}const vector<t_field*>& fields = ((t_struct*)type)->get_members();vector<t_field*>::const_iterator f_iter;const map<t_const_value*, t_const_value*>& val = value->get_map();map<t_const_value*, t_const_value*>::const_iterator v_iter;for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {if (v_iter->first->get_type() != t_const_value::CV_STRING) {throw "type error: " + name + " struct key must be string";}t_type* field_type = NULL;for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {if ((*f_iter)->get_name() == v_iter->first->get_string()) {field_type = (*f_iter)->get_type();}}if (field_type == NULL) {throw "type error: " + type->get_name() + " has no field " + v_iter->first->get_string();}validate_const_rec(name + "." + v_iter->first->get_string(), field_type, v_iter->second);}} else if (type->is_map()) {t_type* k_type = ((t_map*)type)->get_key_type();t_type* v_type = ((t_map*)type)->get_val_type();const map<t_const_value*, t_const_value*>& val = value->get_map();map<t_const_value*, t_const_value*>::const_iterator v_iter;for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {validate_const_rec(name + "<key>", k_type, v_iter->first);validate_const_rec(name + "<val>", v_type, v_iter->second);}} else if (type->is_list() || type->is_set()) {t_type* e_type;if (type->is_list()) {e_type = ((t_list*)type)->get_elem_type();} else {e_type = ((t_set*)type)->get_elem_type();}const vector<t_const_value*>& val = value->get_list();vector<t_const_value*>::const_iterator v_iter;for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {validate_const_rec(name + "<elem>", e_type, *v_iter);}}}/*** Check the type of the parsed const information against its declared type*/void validate_const_type(t_const* c) {validate_const_rec(c->get_name(), c->get_type(), c->get_value());}/*** Check the type of a default value assigned to a field.*/void validate_field_value(t_field* field, t_const_value* cv) {validate_const_rec(field->get_name(), field->get_type(), cv);}/*** Check that all the elements of a throws block are actually exceptions.*/bool validate_throws(t_struct* throws) {const vector<t_field*>& members = throws->get_members();vector<t_field*>::const_iterator m_iter;for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {if (!(*m_iter)->get_type()->is_xception()) {return false;}}return true;}/*** Parses a program*/void parse(t_program* program, t_program* parent_program) {// Get scope file pathstring path = program->get_path();// Set current dir global, which is used in the include_file functiong_curdir = directory_name(path);g_curpath = path;// Open the fileyyin = fopen(path.c_str(), "r");if (yyin == 0) {failure("Could not open input file: \"%s\"", path.c_str());}// Create new scope and scan for includespverbose("Scanning %s for includes\n", path.c_str());g_parse_mode = INCLUDES;g_program = program;g_scope = program->scope();try {yylineno = 1;if (yyparse() != 0) {failure("Parser error during include pass.");}} catch (string x) {failure(x.c_str());}fclose(yyin);// Recursively parse all the include programsvector<t_program*>& includes = program->get_includes();vector<t_program*>::iterator iter;for (iter = includes.begin(); iter != includes.end(); ++iter) {parse(*iter, program);}// Parse the program fileg_parse_mode = PROGRAM;g_program = program;g_scope = program->scope();g_parent_scope = (parent_program != NULL) ? parent_program->scope() : NULL;g_parent_prefix = program->get_name() + ".";g_curpath = path;yyin = fopen(path.c_str(), "r");if (yyin == 0) {failure("Could not open input file: \"%s\"", path.c_str());}pverbose("Parsing %s for types\n", path.c_str());yylineno = 1;try {if (yyparse() != 0) {failure("Parser error during types pass.");}} catch (string x) {failure(x.c_str());}fclose(yyin);}/*** Generate code*/void generate(t_program* program, const vector<string>& generator_strings) {// Oooohh, recursive code generation, hot!!if (gen_recurse) {const vector<t_program*>& includes = program->get_includes();for (size_t i = 0; i < includes.size(); ++i) {// Propogate output path from parent to child programsincludes[i]->set_out_path(program->get_out_path());generate(includes[i], generator_strings);}}// Generate code!try {pverbose("Program: %s\n", program->get_path().c_str());// Compute fingerprints.generate_all_fingerprints(program);if (dump_docs) {dump_docstrings(program);}vector<string>::const_iterator iter;for (iter = generator_strings.begin(); iter != generator_strings.end(); ++iter) {t_generator* generator = t_generator_registry::get_generator(program, *iter);if (generator == NULL) {pwarning(1, "Unable to get a generator for \"%s\".\n", iter->c_str());} else {pverbose("Generating \"%s\"\n", iter->c_str());generator->generate_program();delete generator;}}} catch (string s) {printf("Error: %s\n", s.c_str());} catch (const char* exc) {printf("Error: %s\n", exc);}}/*** Parse it up.. then spit it back out, in pretty much every language. Alright* not that many languages, but the cool ones that we care about.*/int main(int argc, char** argv) {int i;std::string out_path;// Setup time stringtime_t now = time(NULL);g_time_str = ctime(&now);// Check for necessary arguments, you gotta have at least a filename and// an output language flagif (argc < 2) {usage();}vector<string> generator_strings;// Set the current path to a dummy value to make warning messages clearer.g_curpath = "arguments";// Hacky parameter handling... I didn't feel like using a library sorry!for (i = 1; i < argc-1; i++) {char* arg;arg = strtok(argv[i], " ");while (arg != NULL) {// Treat double dashes as single dashesif (arg[0] == '-' && arg[1] == '-') {++arg;}if (strcmp(arg, "-version") == 0) {version();exit(1);} else if (strcmp(arg, "-debug") == 0) {g_debug = 1;} else if (strcmp(arg, "-nowarn") == 0) {g_warn = 0;} else if (strcmp(arg, "-strict") == 0) {g_strict = 255;g_warn = 2;} else if (strcmp(arg, "-v") == 0 || strcmp(arg, "-verbose") == 0 ) {g_verbose = 1;} else if (strcmp(arg, "-r") == 0 || strcmp(arg, "-recurse") == 0 ) {gen_recurse = true;} else if (strcmp(arg, "-gen") == 0) {arg = argv[++i];if (arg == NULL) {fprintf(stderr, "!!! Missing generator specification\n");usage();}generator_strings.push_back(arg);} else if (strcmp(arg, "-dense") == 0) {gen_dense = true;} else if (strcmp(arg, "-cpp") == 0) {gen_cpp = true;} else if (strcmp(arg, "-javabean") == 0) {gen_javabean = true;} else if (strcmp(arg, "-java") == 0) {gen_java = true;} else if (strcmp(arg, "-php") == 0) {gen_php = true;} else if (strcmp(arg, "-phpi") == 0) {gen_phpi = true;} else if (strcmp(arg, "-phps") == 0) {gen_php = true;gen_phps = true;} else if (strcmp(arg, "-phpl") == 0) {gen_php = true;gen_phps = false;} else if (strcmp(arg, "-phpa") == 0) {gen_php = true;gen_phps = false;gen_phpa = true;} else if (strcmp(arg, "-phpo") == 0) {gen_php = true;gen_phpo = true;} else if (strcmp(arg, "-rest") == 0) {gen_rest = true;} else if (strcmp(arg, "-py") == 0) {gen_py = true;} else if (strcmp(arg, "-pyns") == 0) {gen_py = true;gen_py_newstyle = true;} else if (strcmp(arg, "-rb") == 0) {gen_rb = true;} else if (strcmp(arg, "-xsd") == 0) {gen_xsd = true;} else if (strcmp(arg, "-perl") == 0) {gen_perl = true;} else if (strcmp(arg, "-erl") == 0) {gen_erl = true;} else if (strcmp(arg, "-ocaml") == 0) {gen_ocaml = true;} else if (strcmp(arg, "-hs") == 0) {gen_hs = true;} else if (strcmp(arg, "-cocoa") == 0) {gen_cocoa = true;} else if (strcmp(arg, "-st") == 0) {gen_st = true;} else if (strcmp(arg, "-csharp") == 0) {gen_csharp = true;} else if (strcmp(arg, "-cpp_use_include_prefix") == 0) {g_cpp_use_include_prefix = true;} else if (strcmp(arg, "-I") == 0) {// An argument of "-I\ asdf" is invalid and has unknown resultsarg = argv[++i];if (arg == NULL) {fprintf(stderr, "!!! Missing Include directory\n");usage();}g_incl_searchpath.push_back(arg);} else if (strcmp(arg, "-o") == 0) {arg = argv[++i];if (arg == NULL) {fprintf(stderr, "-o: missing output directory\n");usage();}out_path = arg;#ifdef MINGW//strip out trailing \ on Windowsint last = out_path.length()-1;if (out_path[last] == '\\'){out_path.erase(last);}#endifstruct stat sb;if (stat(out_path.c_str(), &sb) < 0) {fprintf(stderr, "Output directory %s is unusable: %s\n", out_path.c_str(), strerror(errno));return -1;}if (! S_ISDIR(sb.st_mode)) {fprintf(stderr, "Output directory %s exists but is not a directory\n", out_path.c_str());return -1;}} else {fprintf(stderr, "!!! Unrecognized option: %s\n", arg);usage();}// Tokenize morearg = strtok(NULL, " ");}}// if you're asking for version, you have a right not to pass a fileif (strcmp(argv[argc-1], "-version") == 0) {version();exit(1);}// TODO(dreiss): Delete these when everyone is using the new hotness.if (gen_cpp) {pwarning(1, "-cpp is deprecated. Use --gen cpp");string gen_string = "cpp:";if (gen_dense) {gen_string.append("dense,");}if (g_cpp_use_include_prefix) {gen_string.append("include_prefix,");}generator_strings.push_back(gen_string);}if (gen_java) {pwarning(1, "-java is deprecated. Use --gen java");generator_strings.push_back("java");}if (gen_javabean) {pwarning(1, "-javabean is deprecated. Use --gen java:beans");generator_strings.push_back("java:beans");}if (gen_csharp) {pwarning(1, "-csharp is deprecated. Use --gen csharp");generator_strings.push_back("csharp");}if (gen_py) {pwarning(1, "-py is deprecated. Use --gen py");generator_strings.push_back("py");}if (gen_rb) {pwarning(1, "-rb is deprecated. Use --gen rb");generator_strings.push_back("rb");}if (gen_perl) {pwarning(1, "-perl is deprecated. Use --gen perl");generator_strings.push_back("perl");}if (gen_php || gen_phpi) {pwarning(1, "-php is deprecated. Use --gen php");string gen_string = "php:";if (gen_phpi) {gen_string.append("inlined,");} else if(gen_phps) {gen_string.append("server,");} else if(gen_phpa) {gen_string.append("autoload,");} else if(gen_phpo) {gen_string.append("oop,");} else if(gen_rest) {gen_string.append("rest,");}generator_strings.push_back(gen_string);}if (gen_cocoa) {pwarning(1, "-cocoa is deprecated. Use --gen cocoa");generator_strings.push_back("cocoa");}if (gen_erl) {pwarning(1, "-erl is deprecated. Use --gen erl");generator_strings.push_back("erl");}if (gen_st) {pwarning(1, "-st is deprecated. Use --gen st");generator_strings.push_back("st");}if (gen_ocaml) {pwarning(1, "-ocaml is deprecated. Use --gen ocaml");generator_strings.push_back("ocaml");}if (gen_hs) {pwarning(1, "-hs is deprecated. Use --gen hs");generator_strings.push_back("hs");}if (gen_xsd) {pwarning(1, "-xsd is deprecated. Use --gen xsd");generator_strings.push_back("xsd");}// You gotta generate something!if (generator_strings.empty()) {fprintf(stderr, "!!! No output language(s) specified\n\n");usage();}// Real-pathify itchar rp[PATH_MAX];if (argv[i] == NULL) {fprintf(stderr, "!!! Missing file name\n");usage();}if (saferealpath(argv[i], rp) == NULL) {failure("Could not open input file with realpath: %s", argv[i]);}string input_file(rp);// Instance of the global parse treet_program* program = new t_program(input_file);if (out_path.size()) {program->set_out_path(out_path);}// Compute the cpp include prefix.// infer this from the filename passed instring input_filename = argv[i];string include_prefix;string::size_type last_slash = string::npos;if ((last_slash = input_filename.rfind("/")) != string::npos) {include_prefix = input_filename.substr(0, last_slash);}program->set_include_prefix(include_prefix);// Initialize global typesg_type_void = new t_base_type("void", t_base_type::TYPE_VOID);g_type_string = new t_base_type("string", t_base_type::TYPE_STRING);g_type_binary = new t_base_type("string", t_base_type::TYPE_STRING);((t_base_type*)g_type_binary)->set_binary(true);g_type_slist = new t_base_type("string", t_base_type::TYPE_STRING);((t_base_type*)g_type_slist)->set_string_list(true);g_type_bool = new t_base_type("bool", t_base_type::TYPE_BOOL);g_type_byte = new t_base_type("byte", t_base_type::TYPE_BYTE);g_type_i16 = new t_base_type("i16", t_base_type::TYPE_I16);g_type_i32 = new t_base_type("i32", t_base_type::TYPE_I32);g_type_i64 = new t_base_type("i64", t_base_type::TYPE_I64);g_type_double = new t_base_type("double", t_base_type::TYPE_DOUBLE);// Parse it!parse(program, NULL);// The current path is not really relevant when we are doing generation.// Reset the variable to make warning messages clearer.g_curpath = "generation";// Reset yylineno for the heck of it. Use 1 instead of 0 because// That is what shows up during argument parsing.yylineno = 1;// Generate it!generate(program, generator_strings);// Clean up. Who am I kidding... this program probably orphans heap memory// all over the place, but who cares because it is about to exit and it is// all referenced and used by this wacky parse tree up until now anyways.delete program;delete g_type_void;delete g_type_string;delete g_type_bool;delete g_type_byte;delete g_type_i16;delete g_type_i32;delete g_type_i64;delete g_type_double;// Finishedreturn 0;}