/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/ ** ** This file is part of the qmake application of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "project.h" #include "property.h" #include "option.h" #include "cachekeys.h" #include "generators/metamakefile.h" #include #include #include #include #include #include #include #include #ifdef Q_OS_UNIX #include #include #include #include #include #include #elif defined(Q_OS_WIN32) #include #endif #include #include #ifdef Q_OS_WIN32 #define QT_POPEN _popen #define QT_PCLOSE _pclose #else #define QT_POPEN popen #define QT_PCLOSE pclose #endif QT_BEGIN_NAMESPACE //expand functions enum ExpandFunc { E_MEMBER=1, E_FIRST, E_LAST, E_CAT, E_FROMFILE, E_EVAL, E_LIST, E_SPRINTF, E_FORMAT_NUMBER, E_JOIN, E_SPLIT, E_BASENAME, E_DIRNAME, E_SECTION, E_FIND, E_SYSTEM, E_UNIQUE, E_REVERSE, E_QUOTE, E_ESCAPE_EXPAND, E_UPPER, E_LOWER, E_FILES, E_PROMPT, E_RE_ESCAPE, E_VAL_ESCAPE, E_REPLACE, E_SIZE, E_SORT_DEPENDS, E_RESOLVE_DEPENDS, E_ENUMERATE_VARS, E_SHADOWED, E_ABSOLUTE_PATH, E_RELATIVE_PATH, E_CLEAN_PATH, E_NATIVE_PATH, E_SHELL_QUOTE }; QHash qmake_expandFunctions() { static QHash *qmake_expand_functions = 0; if(!qmake_expand_functions) { qmake_expand_functions = new QHash; qmakeAddCacheClear(qmakeDeleteCacheClear >, (void**)&qmake_expand_functions); qmake_expand_functions->insert("member", E_MEMBER); qmake_expand_functions->insert("first", E_FIRST); qmake_expand_functions->insert("last", E_LAST); qmake_expand_functions->insert("cat", E_CAT); qmake_expand_functions->insert("fromfile", E_FROMFILE); qmake_expand_functions->insert("eval", E_EVAL); qmake_expand_functions->insert("list", E_LIST); qmake_expand_functions->insert("sprintf", E_SPRINTF); qmake_expand_functions->insert("format_number", E_FORMAT_NUMBER); qmake_expand_functions->insert("join", E_JOIN); qmake_expand_functions->insert("split", E_SPLIT); qmake_expand_functions->insert("basename", E_BASENAME); qmake_expand_functions->insert("dirname", E_DIRNAME); qmake_expand_functions->insert("section", E_SECTION); qmake_expand_functions->insert("find", E_FIND); qmake_expand_functions->insert("system", E_SYSTEM); qmake_expand_functions->insert("unique", E_UNIQUE); qmake_expand_functions->insert("reverse", E_REVERSE); qmake_expand_functions->insert("quote", E_QUOTE); qmake_expand_functions->insert("escape_expand", E_ESCAPE_EXPAND); qmake_expand_functions->insert("upper", E_UPPER); qmake_expand_functions->insert("lower", E_LOWER); qmake_expand_functions->insert("re_escape", E_RE_ESCAPE); qmake_expand_functions->insert("val_escape", E_VAL_ESCAPE); qmake_expand_functions->insert("files", E_FILES); qmake_expand_functions->insert("prompt", E_PROMPT); qmake_expand_functions->insert("replace", E_REPLACE); qmake_expand_functions->insert("size", E_SIZE); qmake_expand_functions->insert("sort_depends", E_SORT_DEPENDS); qmake_expand_functions->insert("resolve_depends", E_RESOLVE_DEPENDS); qmake_expand_functions->insert("enumerate_vars", E_ENUMERATE_VARS); qmake_expand_functions->insert("shadowed", E_SHADOWED); qmake_expand_functions->insert("absolute_path", E_ABSOLUTE_PATH); qmake_expand_functions->insert("relative_path", E_RELATIVE_PATH); qmake_expand_functions->insert("clean_path", E_CLEAN_PATH); qmake_expand_functions->insert("native_path", E_NATIVE_PATH); qmake_expand_functions->insert("shell_quote", E_SHELL_QUOTE); } return *qmake_expand_functions; } //replace functions enum TestFunc { T_REQUIRES=1, T_GREATERTHAN, T_LESSTHAN, T_EQUALS, T_EXISTS, T_EXPORT, T_CLEAR, T_UNSET, T_EVAL, T_CONFIG, T_SYSTEM, T_RETURN, T_BREAK, T_NEXT, T_DEFINED, T_CONTAINS, T_INFILE, T_COUNT, T_ISEMPTY, T_INCLUDE, T_LOAD, T_DEBUG, T_ERROR, T_MESSAGE, T_WARNING, T_LOG, T_IF, T_OPTION, T_CACHE, T_MKPATH, T_WRITE_FILE, T_TOUCH }; QHash qmake_testFunctions() { static QHash *qmake_test_functions = 0; if(!qmake_test_functions) { qmake_test_functions = new QHash; qmake_test_functions->insert("requires", T_REQUIRES); qmake_test_functions->insert("greaterThan", T_GREATERTHAN); qmake_test_functions->insert("lessThan", T_LESSTHAN); qmake_test_functions->insert("equals", T_EQUALS); qmake_test_functions->insert("isEqual", T_EQUALS); qmake_test_functions->insert("exists", T_EXISTS); qmake_test_functions->insert("export", T_EXPORT); qmake_test_functions->insert("clear", T_CLEAR); qmake_test_functions->insert("unset", T_UNSET); qmake_test_functions->insert("eval", T_EVAL); qmake_test_functions->insert("CONFIG", T_CONFIG); qmake_test_functions->insert("if", T_IF); qmake_test_functions->insert("isActiveConfig", T_CONFIG); qmake_test_functions->insert("system", T_SYSTEM); qmake_test_functions->insert("return", T_RETURN); qmake_test_functions->insert("break", T_BREAK); qmake_test_functions->insert("next", T_NEXT); qmake_test_functions->insert("defined", T_DEFINED); qmake_test_functions->insert("contains", T_CONTAINS); qmake_test_functions->insert("infile", T_INFILE); qmake_test_functions->insert("count", T_COUNT); qmake_test_functions->insert("isEmpty", T_ISEMPTY); qmake_test_functions->insert("include", T_INCLUDE); qmake_test_functions->insert("load", T_LOAD); qmake_test_functions->insert("debug", T_DEBUG); qmake_test_functions->insert("error", T_ERROR); qmake_test_functions->insert("message", T_MESSAGE); qmake_test_functions->insert("warning", T_WARNING); qmake_test_functions->insert("log", T_LOG); qmake_test_functions->insert("option", T_OPTION); qmake_test_functions->insert("cache", T_CACHE); qmake_test_functions->insert("mkpath", T_MKPATH); qmake_test_functions->insert("write_file", T_WRITE_FILE); qmake_test_functions->insert("touch", T_TOUCH); } return *qmake_test_functions; } struct parser_info { QString file; int line_no; bool from_file; } parser; static QString cached_source_root; static QString cached_build_root; static QStringList cached_qmakepath; static QStringList cached_qmakefeatures; static QStringList *all_feature_roots[2] = { 0, 0 }; static void invalidateFeatureRoots() { for (int i = 0; i < 2; i++) if (all_feature_roots[i]) all_feature_roots[i]->clear(); } static QString remove_quotes(const QString &arg) { const ushort SINGLEQUOTE = '\''; const ushort DOUBLEQUOTE = '"'; const QChar *arg_data = arg.data(); const ushort first = arg_data->unicode(); const int arg_len = arg.length(); if(first == SINGLEQUOTE || first == DOUBLEQUOTE) { const ushort last = (arg_data+arg_len-1)->unicode(); if(last == first) return arg.mid(1, arg_len-2); } return arg; } static QString varMap(const QString &x) { QString ret(x); if(ret == "INTERFACES") ret = "FORMS"; else if(ret == "QMAKE_POST_BUILD") ret = "QMAKE_POST_LINK"; else if(ret == "TARGETDEPS") ret = "POST_TARGETDEPS"; else if(ret == "LIBPATH") ret = "QMAKE_LIBDIR"; else if(ret == "QMAKE_EXT_MOC") ret = "QMAKE_EXT_CPP_MOC"; else if(ret == "QMAKE_MOD_MOC") ret = "QMAKE_H_MOD_MOC"; else if(ret == "QMAKE_LFLAGS_SHAPP") ret = "QMAKE_LFLAGS_APP"; else if(ret == "PRECOMPH") ret = "PRECOMPILED_HEADER"; else if(ret == "PRECOMPCPP") ret = "PRECOMPILED_SOURCE"; else if(ret == "INCPATH") ret = "INCLUDEPATH"; else if(ret == "QMAKE_EXTRA_WIN_COMPILERS" || ret == "QMAKE_EXTRA_UNIX_COMPILERS") ret = "QMAKE_EXTRA_COMPILERS"; else if(ret == "QMAKE_EXTRA_WIN_TARGETS" || ret == "QMAKE_EXTRA_UNIX_TARGETS") ret = "QMAKE_EXTRA_TARGETS"; else if(ret == "QMAKE_EXTRA_UNIX_INCLUDES") ret = "QMAKE_EXTRA_INCLUDES"; else if(ret == "QMAKE_EXTRA_UNIX_VARIABLES") ret = "QMAKE_EXTRA_VARIABLES"; else if(ret == "QMAKE_RPATH") ret = "QMAKE_LFLAGS_RPATH"; else if(ret == "QMAKE_FRAMEWORKDIR") ret = "QMAKE_FRAMEWORKPATH"; else if(ret == "QMAKE_FRAMEWORKDIR_FLAGS") ret = "QMAKE_FRAMEWORKPATH_FLAGS"; else return ret; warn_msg(WarnDeprecated, "%s:%d: Variable %s is deprecated; use %s instead.", parser.file.toLatin1().constData(), parser.line_no, x.toLatin1().constData(), ret.toLatin1().constData()); return ret; } static QStringList split_arg_list(const QString ¶ms) { int quote = 0; QStringList args; const ushort LPAREN = '('; const ushort RPAREN = ')'; const ushort SINGLEQUOTE = '\''; const ushort DOUBLEQUOTE = '"'; const ushort BACKSLASH = '\\'; const ushort COMMA = ','; const ushort SPACE = ' '; //const ushort TAB = '\t'; const QChar *params_data = params.data(); const int params_len = params.length(); for(int last = 0; ;) { while(last < params_len && (params_data[last].unicode() == SPACE /*|| params_data[last].unicode() == TAB*/)) ++last; for(int x = last, parens = 0; ; x++) { if(x == params_len) { while(x > last && params_data[x-1].unicode() == SPACE) --x; args << params.mid(last, x - last); // Could do a check for unmatched parens here, but split_value_list() // is called on all our output, so mistakes will be caught anyway. return args; } ushort unicode = params_data[x].unicode(); if(x != (int)params_len-1 && unicode == BACKSLASH && (params_data[x+1].unicode() == SINGLEQUOTE || params_data[x+1].unicode() == DOUBLEQUOTE)) { x++; //get that 'escape' } else if(quote && unicode == quote) { quote = 0; } else if(!quote && (unicode == SINGLEQUOTE || unicode == DOUBLEQUOTE)) { quote = unicode; } else if(unicode == RPAREN) { --parens; } else if(unicode == LPAREN) { ++parens; } if(!parens && !quote && unicode == COMMA) { int prev = last; last = x+1; while(x > prev && params_data[x-1].unicode() == SPACE) --x; args << params.mid(prev, x - prev); break; } } } } static QStringList split_value_list(const QString &vals) { QString build; QStringList ret; ushort quote = 0; int parens = 0; const ushort LPAREN = '('; const ushort RPAREN = ')'; const ushort SINGLEQUOTE = '\''; const ushort DOUBLEQUOTE = '"'; const ushort BACKSLASH = '\\'; ushort unicode; const QChar *vals_data = vals.data(); const int vals_len = vals.length(); for(int x = 0; x < vals_len; x++) { unicode = vals_data[x].unicode(); if(x != (int)vals_len-1 && unicode == BACKSLASH && (vals_data[x+1].unicode() == SINGLEQUOTE || vals_data[x+1].unicode() == DOUBLEQUOTE)) { build += vals_data[x++]; //get that 'escape' } else if(quote && unicode == quote) { quote = 0; } else if(!quote && (unicode == SINGLEQUOTE || unicode == DOUBLEQUOTE)) { quote = unicode; } else if(unicode == RPAREN) { --parens; } else if(unicode == LPAREN) { ++parens; } if(!parens && !quote && (vals_data[x] == Option::field_sep)) { ret << build; build.clear(); } else { build += vals_data[x]; } } if(!build.isEmpty()) ret << build; if (parens) warn_msg(WarnDeprecated, "%s:%d: Unmatched parentheses are deprecated.", parser.file.toLatin1().constData(), parser.line_no); // Could do a check for unmatched quotes here, but doVariableReplaceExpand() // is called on all our output, so mistakes will be caught anyway. return ret; } //just a parsable entity struct ParsableBlock { ParsableBlock() : ref_cnt(1) { } virtual ~ParsableBlock() { } struct Parse { QString text; parser_info pi; Parse(const QString &t) : text(t){ pi = parser; } }; QList parselist; inline int ref() { return ++ref_cnt; } inline int deref() { return --ref_cnt; } protected: int ref_cnt; virtual bool continueBlock() = 0; bool eval(QMakeProject *p, QHash &place); }; bool ParsableBlock::eval(QMakeProject *p, QHash &place) { //save state parser_info pi = parser; const int block_count = p->scope_blocks.count(); //execute bool ret = true; for(int i = 0; i < parselist.count(); i++) { parser = parselist.at(i).pi; if(!(ret = p->parse(parselist.at(i).text, place)) || !continueBlock()) break; } //restore state parser = pi; while(p->scope_blocks.count() > block_count) p->scope_blocks.pop(); return ret; } //defined functions struct FunctionBlock : public ParsableBlock { FunctionBlock() : calling_place(0), scope_level(1), cause_return(false) { } QHash vars; QHash *calling_place; QStringList return_value; int scope_level; bool cause_return; bool exec(const QList &args, QMakeProject *p, QHash &place, QStringList &functionReturn); virtual bool continueBlock() { return !cause_return; } }; bool FunctionBlock::exec(const QList &args, QMakeProject *proj, QHash &place, QStringList &functionReturn) { //save state #if 1 calling_place = &place; #else calling_place = &proj->variables(); #endif return_value.clear(); cause_return = false; //execute #if 0 vars = proj->variables(); // should be place so that local variables can be inherited #else vars = place; #endif vars["ARGS"].clear(); for(int i = 0; i < args.count(); i++) { vars["ARGS"] += args[i]; vars[QString::number(i+1)] = args[i]; } bool ret = ParsableBlock::eval(proj, vars); functionReturn = return_value; //restore state calling_place = 0; return_value.clear(); vars.clear(); return ret; } //loops struct IteratorBlock : public ParsableBlock { IteratorBlock() : scope_level(1), loop_forever(false), cause_break(false), cause_next(false) { } int scope_level; struct Test { QString func; QStringList args; bool invert; parser_info pi; Test(const QString &f, QStringList &a, bool i) : func(f), args(a), invert(i) { pi = parser; } }; QList test; QString variable; bool loop_forever, cause_break, cause_next; QStringList list; bool exec(QMakeProject *p, QHash &place); virtual bool continueBlock() { return !cause_next && !cause_break; } }; bool IteratorBlock::exec(QMakeProject *p, QHash &place) { bool ret = true; QStringList::Iterator it; if(!loop_forever) it = list.begin(); int iterate_count = 0; //save state IteratorBlock *saved_iterator = p->iterator; p->iterator = this; //do the loop while(loop_forever || it != list.end()) { cause_next = cause_break = false; if(!loop_forever && (*it).isEmpty()) { //ignore empty items ++it; continue; } //set up the loop variable QStringList va; if(!variable.isEmpty()) { va = place[variable]; if(loop_forever) place[variable] = QStringList(QString::number(iterate_count)); else place[variable] = QStringList(*it); } //do the iterations bool succeed = true; for(QList::Iterator test_it = test.begin(); test_it != test.end(); ++test_it) { parser = (*test_it).pi; succeed = p->doProjectTest((*test_it).func, (*test_it).args, place); if((*test_it).invert) succeed = !succeed; if(!succeed) break; } if(succeed) ret = ParsableBlock::eval(p, place); //restore the variable in the map if(!variable.isEmpty()) place[variable] = va; //loop counters if(!loop_forever) ++it; iterate_count++; if(!ret || cause_break) break; } //restore state p->iterator = saved_iterator; return ret; } QMakeProject::ScopeBlock::~ScopeBlock() { #if 0 if(iterate) delete iterate; #endif } static void qmake_error_msg(const QString &msg) { fprintf(stderr, "%s:%d: %s\n", parser.file.toLatin1().constData(), parser.line_no, msg.toLatin1().constData()); } /* 1) environment variable QMAKEFEATURES (as separated by colons) 2) property variable QMAKEFEATURES (as separated by colons) 3) (where .qmake.cache lives) + FEATURES_DIR 4) environment variable QMAKEPATH (as separated by colons) + /mkspecs/FEATURES_DIR 5) your QMAKESPEC/features dir 6) your data_install/mkspecs/FEATURES_DIR 7) your QMAKESPEC/../FEATURES_DIR dir FEATURES_DIR is defined as: 1) features/(unix|win32|macx)/ 2) features/ */ QStringList qmake_feature_paths(QMakeProperty *prop, bool host_build) { const QString mkspecs_concat = QLatin1String("/mkspecs"); const QString base_concat = QLatin1String("/features"); QStringList concat; { switch(Option::target_mode) { case Option::TARG_MACX_MODE: //also a unix concat << base_concat + QLatin1String("/mac"); concat << base_concat + QLatin1String("/macx"); concat << base_concat + QLatin1String("/unix"); break; default: // Can't happen, just make the compiler shut up case Option::TARG_UNIX_MODE: concat << base_concat + QLatin1String("/unix"); break; case Option::TARG_WIN_MODE: concat << base_concat + QLatin1String("/win32"); break; } concat << base_concat; } QStringList feature_roots = splitPathList(QString::fromLocal8Bit(qgetenv("QMAKEFEATURES"))); feature_roots += cached_qmakefeatures; if(prop) feature_roots += splitPathList(prop->value("QMAKEFEATURES")); if (!cached_build_root.isEmpty()) for(QStringList::Iterator concat_it = concat.begin(); concat_it != concat.end(); ++concat_it) feature_roots << (cached_build_root + (*concat_it)); QStringList qmakepath = splitPathList(QString::fromLocal8Bit(qgetenv("QMAKEPATH"))); qmakepath += cached_qmakepath; foreach (const QString &path, qmakepath) foreach (const QString &cat, concat) feature_roots << (path + mkspecs_concat + cat); QString *specp = host_build ? &Option::mkfile::qmakespec : &Option::mkfile::xqmakespec; if (!specp->isEmpty()) { // The spec is already platform-dependent, so no subdirs here. feature_roots << *specp + base_concat; // Also check directly under the root directory of the mkspecs collection QFileInfo specfi(*specp); QDir specrootdir(specfi.absolutePath()); while (!specrootdir.isRoot()) { const QString specrootpath = specrootdir.path(); if (specrootpath.endsWith(mkspecs_concat)) { if (QFile::exists(specrootpath + base_concat)) for (QStringList::Iterator concat_it = concat.begin(); concat_it != concat.end(); ++concat_it) feature_roots << (specrootpath + (*concat_it)); break; } specrootdir.cdUp(); } } for(QStringList::Iterator concat_it = concat.begin(); concat_it != concat.end(); ++concat_it) feature_roots << (QLibraryInfo::rawLocation(QLibraryInfo::HostDataPath, QLibraryInfo::EffectivePaths) + mkspecs_concat + (*concat_it)); feature_roots.removeDuplicates(); return feature_roots; } QStringList qmake_mkspec_paths() { QStringList ret; const QString concat = QLatin1String("/mkspecs"); QStringList qmakepath = splitPathList(QString::fromLocal8Bit(qgetenv("QMAKEPATH"))); qmakepath += cached_qmakepath; foreach (const QString &path, qmakepath) ret << (path + concat); if (!cached_build_root.isEmpty()) ret << cached_build_root + concat; if (!cached_source_root.isEmpty()) ret << cached_source_root + concat; ret << QLibraryInfo::rawLocation(QLibraryInfo::HostDataPath, QLibraryInfo::EffectivePaths) + concat; ret.removeDuplicates(); return ret; } QMakeProject::~QMakeProject() { if(own_prop) delete prop; cleanup(); } void QMakeProject::init(QMakeProperty *p) { if(!p) { prop = new QMakeProperty; own_prop = true; } else { prop = p; own_prop = false; } recursive = false; host_build = false; reset(); } void QMakeProject::cleanup() { for (QHash::iterator it = replaceFunctions.begin(); it != replaceFunctions.end(); ++it) if (!it.value()->deref()) delete it.value(); replaceFunctions.clear(); for (QHash::iterator it = testFunctions.begin(); it != testFunctions.end(); ++it) if (!it.value()->deref()) delete it.value(); testFunctions.clear(); } // Duplicate project. It is *not* allowed to call the complex read() functions on the copy. QMakeProject::QMakeProject(QMakeProject *p, const QHash *_vars) { init(p->properties()); vars = _vars ? *_vars : p->variables(); host_build = p->host_build; for(QHash::iterator it = p->replaceFunctions.begin(); it != p->replaceFunctions.end(); ++it) { it.value()->ref(); replaceFunctions.insert(it.key(), it.value()); } for(QHash::iterator it = p->testFunctions.begin(); it != p->testFunctions.end(); ++it) { it.value()->ref(); testFunctions.insert(it.key(), it.value()); } } void QMakeProject::reset() { // scope_blocks starts with one non-ignoring entity scope_blocks.clear(); scope_blocks.push(ScopeBlock()); iterator = 0; function = 0; backslashWarned = false; need_restart = false; } bool QMakeProject::parse(const QString &t, QHash &place, int numLines) { // To preserve the integrity of any UTF-8 characters in .pro file, temporarily replace the // non-breaking space (0xA0) characters with another non-space character, so that // QString::simplified() call will not replace it with space. // Note: There won't be any two byte characters in .pro files, so 0x10A0 should be a safe // replacement character. static QChar nbsp(0xA0); static QChar nbspFix(0x01A0); QString s; if (t.indexOf(nbsp) != -1) { s = t; s.replace(nbsp, nbspFix); s = s.simplified(); s.replace(nbspFix, nbsp); } else { s = t.simplified(); } int hash_mark = s.indexOf("#"); if(hash_mark != -1) //good bye comments s = s.left(hash_mark); if(s.isEmpty()) // blank_line return true; if(scope_blocks.top().ignore) { bool continue_parsing = false; // adjust scope for each block which appears on a single line for(int i = 0; i < s.length(); i++) { if(s[i] == '{') { scope_blocks.push(ScopeBlock(true)); } else if(s[i] == '}') { if(scope_blocks.count() == 1) { fprintf(stderr, "Braces mismatch %s:%d\n", parser.file.toLatin1().constData(), parser.line_no); return false; } ScopeBlock sb = scope_blocks.pop(); if(sb.iterate) { sb.iterate->exec(this, place); delete sb.iterate; sb.iterate = 0; } if(!scope_blocks.top().ignore) { debug_msg(1, "Project Parser: %s:%d : Leaving block %d", parser.file.toLatin1().constData(), parser.line_no, scope_blocks.count()+1); s = s.mid(i+1).trimmed(); continue_parsing = !s.isEmpty(); break; } } } if(!continue_parsing) { debug_msg(1, "Project Parser: %s:%d : Ignored due to block being false.", parser.file.toLatin1().constData(), parser.line_no); return true; } } if(function) { QString append; int d_off = 0; const QChar *d = s.unicode(); bool function_finished = false; while(d_off < s.length()) { if(*(d+d_off) == QLatin1Char('}')) { function->scope_level--; if(!function->scope_level) { function_finished = true; break; } } else if(*(d+d_off) == QLatin1Char('{')) { function->scope_level++; } append += *(d+d_off); ++d_off; } if(!append.isEmpty()) function->parselist.append(IteratorBlock::Parse(append)); if(function_finished) { function = 0; s = QString(d+d_off, s.length()-d_off); } else { return true; } } else if(IteratorBlock *it = scope_blocks.top().iterate) { QString append; int d_off = 0; const QChar *d = s.unicode(); bool iterate_finished = false; while(d_off < s.length()) { if(*(d+d_off) == QLatin1Char('}')) { it->scope_level--; if(!it->scope_level) { iterate_finished = true; break; } } else if(*(d+d_off) == QLatin1Char('{')) { it->scope_level++; } append += *(d+d_off); ++d_off; } if(!append.isEmpty()) scope_blocks.top().iterate->parselist.append(IteratorBlock::Parse(append)); if(iterate_finished) { scope_blocks.top().iterate = 0; bool ret = it->exec(this, place); delete it; if(!ret) return false; s = s.mid(d_off); } else { return true; } } QString scope, var, op; QStringList val; #define SKIP_WS(d, o, l) while(o < l && (*(d+o) == QLatin1Char(' ') || *(d+o) == QLatin1Char('\t'))) ++o const QChar *d = s.unicode(); int d_off = 0; SKIP_WS(d, d_off, s.length()); IteratorBlock *iterator = 0; bool scope_failed = false, else_line = false, or_op=false; QChar quote = 0; int parens = 0, scope_count=0, start_block = 0; while(d_off < s.length()) { if(!parens) { if(*(d+d_off) == QLatin1Char('=')) break; if(*(d+d_off) == QLatin1Char('+') || *(d+d_off) == QLatin1Char('-') || *(d+d_off) == QLatin1Char('*') || *(d+d_off) == QLatin1Char('~')) { if(*(d+d_off+1) == QLatin1Char('=')) { break; } else if(*(d+d_off+1) == QLatin1Char(' ')) { const QChar *k = d+d_off+1; int k_off = 0; SKIP_WS(k, k_off, s.length()-d_off); if(*(k+k_off) == QLatin1Char('=')) { QString msg; qmake_error_msg(QString(d+d_off, 1) + "must be followed immediately by ="); return false; } } } } if(!quote.isNull()) { if(*(d+d_off) == quote) quote = QChar(); } else if(*(d+d_off) == '(') { ++parens; } else if(*(d+d_off) == ')') { --parens; } else if(*(d+d_off) == '"' /*|| *(d+d_off) == '\''*/) { quote = *(d+d_off); } if(!parens && quote.isNull() && (*(d+d_off) == QLatin1Char(':') || *(d+d_off) == QLatin1Char('{') || *(d+d_off) == QLatin1Char(')') || *(d+d_off) == QLatin1Char('|'))) { scope_count++; scope = var.trimmed(); if(*(d+d_off) == QLatin1Char(')')) scope += *(d+d_off); // need this var = ""; bool test = scope_failed; if(scope.isEmpty()) { test = true; } else if(scope.toLower() == "else") { //else is a builtin scope here as it modifies state if(scope_count != 1 || scope_blocks.top().else_status == ScopeBlock::TestNone) { qmake_error_msg(("Unexpected " + scope + " ('" + s + "')").toLatin1()); return false; } else_line = true; test = (scope_blocks.top().else_status == ScopeBlock::TestSeek); debug_msg(1, "Project Parser: %s:%d : Else%s %s.", parser.file.toLatin1().constData(), parser.line_no, scope == "else" ? "" : QString(" (" + scope + ")").toLatin1().constData(), test ? "considered" : "excluded"); } else { QString comp_scope = scope; bool invert_test = (comp_scope.at(0) == QLatin1Char('!')); if(invert_test) comp_scope = comp_scope.mid(1); int lparen = comp_scope.indexOf('('); if(or_op == scope_failed) { if(lparen != -1) { // if there is an lparen in the scope, it IS a function int rparen = comp_scope.lastIndexOf(')'); if(rparen == -1) { qmake_error_msg("Function missing right paren: " + comp_scope); return false; } QString func = comp_scope.left(lparen); QStringList args = split_arg_list(comp_scope.mid(lparen+1, rparen - lparen - 1)); if(function) { fprintf(stderr, "%s:%d: No tests can come after a function definition!\n", parser.file.toLatin1().constData(), parser.line_no); return false; } else if(func == "for") { //for is a builtin function here, as it modifies state if(args.count() > 2 || args.count() < 1) { fprintf(stderr, "%s:%d: for(iterate, list) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } else if(iterator) { fprintf(stderr, "%s:%d unexpected nested for()\n", parser.file.toLatin1().constData(), parser.line_no); return false; } iterator = new IteratorBlock; QString it_list; if(args.count() == 1) { doVariableReplace(args[0], place); it_list = args[0]; if(args[0] != "ever") { delete iterator; iterator = 0; fprintf(stderr, "%s:%d: for(iterate, list) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } it_list = "forever"; } else if(args.count() == 2) { iterator->variable = args[0]; doVariableReplace(args[1], place); it_list = args[1]; } QStringList list = place[it_list]; if(list.isEmpty()) { if(it_list == "forever") { iterator->loop_forever = true; } else { int dotdot = it_list.indexOf(".."); if(dotdot != -1) { bool ok; int start = it_list.left(dotdot).toInt(&ok); if(ok) { int end = it_list.mid(dotdot+2).toInt(&ok); if(ok) { if(start < end) { for(int i = start; i <= end; i++) list << QString::number(i); } else { for(int i = start; i >= end; i--) list << QString::number(i); } } } } } } iterator->list = list; test = !invert_test; } else if(iterator) { iterator->test.append(IteratorBlock::Test(func, args, invert_test)); test = !invert_test; } else if(func == "defineTest" || func == "defineReplace") { if(!function_blocks.isEmpty()) { fprintf(stderr, "%s:%d: cannot define a function within another definition.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(args.count() != 1) { fprintf(stderr, "%s:%d: %s(function_name) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); return false; } QHash *map = 0; if(func == "defineTest") map = &testFunctions; else map = &replaceFunctions; #if 0 if(!map || map->contains(args[0])) { fprintf(stderr, "%s:%d: Function[%s] multiply defined.\n", parser.file.toLatin1().constData(), parser.line_no, args[0].toLatin1().constData()); return false; } #endif function = new FunctionBlock; map->insert(args[0], function); test = true; } else { test = doProjectTest(func, args, place); if(*(d+d_off) == QLatin1Char(')') && d_off == s.length()-1) { if(invert_test) test = !test; scope_blocks.top().else_status = (test ? ScopeBlock::TestFound : ScopeBlock::TestSeek); return true; // assume we are done } } } else { QString cscope = comp_scope.trimmed(); doVariableReplace(cscope, place); test = isActiveConfig(cscope.trimmed(), true, &place); } if(invert_test) test = !test; } } if(!test && !scope_failed) debug_msg(1, "Project Parser: %s:%d : Test (%s) failed.", parser.file.toLatin1().constData(), parser.line_no, scope.toLatin1().constData()); if(test == or_op) scope_failed = !test; or_op = (*(d+d_off) == QLatin1Char('|')); if(*(d+d_off) == QLatin1Char('{')) { // scoping block start_block++; if(iterator) { for(int off = 0, braces = 0; true; ++off) { if(*(d+d_off+off) == QLatin1Char('{')) ++braces; else if(*(d+d_off+off) == QLatin1Char('}') && braces) --braces; if(!braces || d_off+off == s.length()) { iterator->parselist.append(s.mid(d_off, off-1)); if(braces > 1) iterator->scope_level += braces-1; d_off += off-1; break; } } } } } else if(!parens && *(d+d_off) == QLatin1Char('}')) { if(start_block) { --start_block; } else if(!scope_blocks.count()) { warn_msg(WarnParser, "Possible braces mismatch %s:%d", parser.file.toLatin1().constData(), parser.line_no); } else { if(scope_blocks.count() == 1) { fprintf(stderr, "Braces mismatch %s:%d\n", parser.file.toLatin1().constData(), parser.line_no); return false; } debug_msg(1, "Project Parser: %s:%d : Leaving block %d", parser.file.toLatin1().constData(), parser.line_no, scope_blocks.count()); ScopeBlock sb = scope_blocks.pop(); if(sb.iterate) sb.iterate->exec(this, place); } } else { var += *(d+d_off); } ++d_off; } var = var.trimmed(); if(!else_line || (else_line && !scope_failed)) scope_blocks.top().else_status = (!scope_failed ? ScopeBlock::TestFound : ScopeBlock::TestSeek); if(start_block) { ScopeBlock next_block(scope_failed); next_block.iterate = iterator; if(iterator) next_block.else_status = ScopeBlock::TestNone; else if(scope_failed) next_block.else_status = ScopeBlock::TestSeek; else next_block.else_status = ScopeBlock::TestFound; scope_blocks.push(next_block); debug_msg(1, "Project Parser: %s:%d : Entering block %d (%d). [%s]", parser.file.toLatin1().constData(), parser.line_no, scope_blocks.count(), scope_failed, s.toLatin1().constData()); } else if(iterator) { iterator->parselist.append(QString(var+s.mid(d_off))); bool ret = iterator->exec(this, place); delete iterator; return ret; } if((!scope_count && !var.isEmpty()) || (scope_count == 1 && else_line)) scope_blocks.top().else_status = ScopeBlock::TestNone; if(d_off == s.length()) { if(!var.trimmed().isEmpty()) qmake_error_msg(("Parse Error ('" + s + "')").toLatin1()); return var.isEmpty(); // allow just a scope } SKIP_WS(d, d_off, s.length()); for(; d_off < s.length() && op.indexOf('=') == -1; op += *(d+(d_off++))) ; op.replace(QRegExp("\\s"), ""); SKIP_WS(d, d_off, s.length()); QString vals = s.mid(d_off); // vals now contains the space separated list of values int rbraces = vals.count('}'), lbraces = vals.count('{'); if(scope_blocks.count() > 1 && rbraces - lbraces == 1 && vals.endsWith('}')) { debug_msg(1, "Project Parser: %s:%d : Leaving block %d", parser.file.toLatin1().constData(), parser.line_no, scope_blocks.count()); ScopeBlock sb = scope_blocks.pop(); if(sb.iterate) sb.iterate->exec(this, place); vals.truncate(vals.length()-1); } else if(rbraces != lbraces) { warn_msg(WarnParser, "Possible braces mismatch {%s} %s:%d", vals.toLatin1().constData(), parser.file.toLatin1().constData(), parser.line_no); } if(scope_failed) return true; // oh well #undef SKIP_WS doVariableReplace(var, place); var = varMap(var); //backwards compatibility if(!var.isEmpty() && Option::mkfile::do_preprocess) { static QString last_file("*none*"); if(parser.file != last_file) { fprintf(stdout, "#file %s:%d\n", parser.file.toLatin1().constData(), parser.line_no); last_file = parser.file; } fprintf(stdout, "%s %s %s\n", var.toLatin1().constData(), op.toLatin1().constData(), vals.toLatin1().constData()); } if(vals.contains('=') && numLines > 1) warn_msg(WarnParser, "Possible accidental line continuation: {%s} at %s:%d", var.toLatin1().constData(), parser.file.toLatin1().constData(), parser.line_no); QStringList &varlist = place[var]; // varlist is the list in the symbol table if(Option::debug_level >= 1) { QString tmp_vals = vals; doVariableReplace(tmp_vals, place); debug_msg(1, "Project Parser: %s:%d :%s: :%s: (%s)", parser.file.toLatin1().constData(), parser.line_no, var.toLatin1().constData(), op.toLatin1().constData(), tmp_vals.toLatin1().constData()); } // now do the operation if(op == "~=") { doVariableReplace(vals, place); if(vals.length() < 4 || vals.at(0) != 's') { qmake_error_msg(("~= operator only can handle s/// function ('" + s + "')").toLatin1()); return false; } QChar sep = vals.at(1); QStringList func = vals.split(sep); if(func.count() < 3 || func.count() > 4) { qmake_error_msg(("~= operator only can handle s/// function ('" + s + "')").toLatin1()); return false; } bool global = false, case_sense = true, quote = false; if(func.count() == 4) { global = func[3].indexOf('g') != -1; case_sense = func[3].indexOf('i') == -1; quote = func[3].indexOf('q') != -1; } QString from = func[1], to = func[2]; if(quote) from = QRegExp::escape(from); QRegExp regexp(from, case_sense ? Qt::CaseSensitive : Qt::CaseInsensitive); for(QStringList::Iterator varit = varlist.begin(); varit != varlist.end();) { if((*varit).contains(regexp)) { (*varit) = (*varit).replace(regexp, to); if ((*varit).isEmpty()) varit = varlist.erase(varit); else ++varit; if(!global) break; } else ++varit; } } else { QStringList vallist; { //doVariableReplace(vals, place); QStringList tmp = split_value_list(vals); for(int i = 0; i < tmp.size(); ++i) vallist += doVariableReplaceExpand(tmp[i], place); } if(op == "=") { if(!varlist.isEmpty()) { bool send_warning = false; if(var != "TEMPLATE" && var != "TARGET") { QSet incoming_vals = vallist.toSet(); for(int i = 0; i < varlist.size(); ++i) { const QString var = varlist.at(i).trimmed(); if(!var.isEmpty() && !incoming_vals.contains(var)) { send_warning = true; break; } } } if(send_warning) warn_msg(WarnParser, "Operator=(%s) clears variables previously set: %s:%d", var.toLatin1().constData(), parser.file.toLatin1().constData(), parser.line_no); } varlist.clear(); } for(QStringList::ConstIterator valit = vallist.begin(); valit != vallist.end(); ++valit) { if((*valit).isEmpty()) continue; if((op == "*=" && !varlist.contains((*valit))) || op == "=" || op == "+=") varlist.append((*valit)); else if(op == "-=") varlist.removeAll((*valit)); } if(var == "REQUIRES") // special case to get communicated to backends! doProjectCheckReqs(vallist, place); } return true; } bool QMakeProject::read(QTextStream &file, QHash &place) { int numLines = 0; bool ret = true; QString s; while(!file.atEnd()) { parser.line_no++; QString line = file.readLine().trimmed(); int prelen = line.length(); int hash_mark = line.indexOf("#"); if(hash_mark != -1) //good bye comments line = line.left(hash_mark).trimmed(); if(!line.isEmpty() && line.right(1) == "\\") { if(!line.startsWith("#")) { line.truncate(line.length() - 1); s += line + Option::field_sep; ++numLines; } } else if(!line.isEmpty() || (line.isEmpty() && !prelen)) { if(s.isEmpty() && line.isEmpty()) continue; if(!line.isEmpty()) { s += line; ++numLines; } if(!s.isEmpty()) { if(!(ret = parse(s, place, numLines))) { s = ""; numLines = 0; break; } s = ""; numLines = 0; if (need_restart) break; } } } if (!s.isEmpty()) ret = parse(s, place, numLines); return ret; } bool QMakeProject::read(const QString &file, QHash &place) { parser_info pi = parser; reset(); const QString oldpwd = qmake_getpwd(); QString filename = Option::normalizePath(file, false); bool ret = false, using_stdin = false; QFile qfile; if(filename == QLatin1String("-")) { qfile.setFileName(""); ret = qfile.open(stdin, QIODevice::ReadOnly); using_stdin = true; } else if(QFileInfo(file).isDir()) { return false; } else { qfile.setFileName(filename); ret = qfile.open(QIODevice::ReadOnly); qmake_setpwd(QFileInfo(filename).absolutePath()); } if(ret) { parser_info pi = parser; parser.from_file = true; parser.file = filename; parser.line_no = 0; if (qfile.peek(3) == QByteArray("\xef\xbb\xbf")) { //UTF-8 BOM will cause subtle errors qmake_error_msg("Unexpected UTF-8 BOM found"); ret = false; } else { QTextStream t(&qfile); ret = read(t, place); } if(!using_stdin) qfile.close(); } if (!need_restart && scope_blocks.count() != 1) { qmake_error_msg("Unterminated conditional block at end of file"); ret = false; } parser = pi; qmake_setpwd(oldpwd); return ret; } bool QMakeProject::read(const QString &project, uchar cmd) { pfile = QFileInfo(project).absoluteFilePath(); return read(cmd); } bool QMakeProject::read(uchar cmd) { again: if ((cmd & ReadSetup) && base_vars.isEmpty()) { // hack to get the Option stuff in there base_vars["QMAKE_EXT_CPP"] = Option::cpp_ext; base_vars["QMAKE_EXT_C"] = Option::c_ext; base_vars["QMAKE_EXT_H"] = Option::h_ext; base_vars["QMAKE_SH"] = Option::shellPath; if(!Option::user_template_prefix.isEmpty()) base_vars["TEMPLATE_PREFIX"] = QStringList(Option::user_template_prefix); QString project_root; QString project_build_root; QStringList qmakepath; QStringList qmakefeatures; if (Option::mkfile::do_cache) { // parse the cache QHash cache; if (Option::mkfile::cachefile.isEmpty()) { //find it as it has not been specified QString sdir = qmake_getpwd(); QString dir = Option::output_dir; forever { QFileInfo qsfi(sdir, QLatin1String(".qmake.conf")); if (qsfi.exists()) { conffile = qsfi.filePath(); if (!read(conffile, cache)) return false; } QFileInfo qfi(dir, QLatin1String(".qmake.cache")); if (qfi.exists()) { cachefile = qfi.filePath(); if (!read(cachefile, cache)) return false; } if (!conffile.isEmpty() || !cachefile.isEmpty()) { project_root = sdir; project_build_root = dir; break; } QFileInfo qsdfi(sdir); QFileInfo qdfi(dir); if (qsdfi.isRoot() || qdfi.isRoot()) goto no_cache; sdir = qsdfi.path(); dir = qdfi.path(); } } else { QFileInfo fi(Option::mkfile::cachefile); cachefile = QDir::cleanPath(fi.absoluteFilePath()); if (!read(cachefile, cache)) return false; project_build_root = QDir::cleanPath(fi.absolutePath()); // This intentionally bypasses finding a source root, // as the result would be more or less arbitrary. } if (Option::mkfile::xqmakespec.isEmpty() && !cache["XQMAKESPEC"].isEmpty()) Option::mkfile::xqmakespec = cache["XQMAKESPEC"].first(); if (Option::mkfile::qmakespec.isEmpty() && !cache["QMAKESPEC"].isEmpty()) { Option::mkfile::qmakespec = cache["QMAKESPEC"].first(); if (Option::mkfile::xqmakespec.isEmpty()) Option::mkfile::xqmakespec = Option::mkfile::qmakespec; } qmakepath = cache.value(QLatin1String("QMAKEPATH")); qmakefeatures = cache.value(QLatin1String("QMAKEFEATURES")); if (Option::output_dir.startsWith(project_build_root)) Option::mkfile::cachefile_depth = Option::output_dir.mid(project_build_root.length()).count('/'); } no_cache: if (project_build_root.isEmpty()) { QDir srcdir(qmake_getpwd()); QDir dstdir(Option::output_dir); do { // Look for mkspecs/ in source and build. First to win determines the root. if (dstdir.exists("mkspecs") || srcdir.exists("mkspecs")) { project_build_root = dstdir.path(); project_root = srcdir.path(); if (project_root == project_build_root) project_root.clear(); break; } } while (!srcdir.isRoot() && srcdir.cdUp() && !dstdir.isRoot() && dstdir.cdUp()); } if (qmakepath != cached_qmakepath || qmakefeatures != cached_qmakefeatures || project_build_root != cached_build_root) { // No need to check source dir, as it goes in sync cached_source_root = project_root; cached_build_root = project_build_root; cached_qmakepath = qmakepath; cached_qmakefeatures = qmakefeatures; invalidateFeatureRoots(); } { // parse mkspec QString *specp = host_build ? &Option::mkfile::qmakespec : &Option::mkfile::xqmakespec; QString qmakespec = *specp; if (qmakespec.isEmpty()) qmakespec = host_build ? "default-host" : "default"; if (QDir::isRelativePath(qmakespec)) { QStringList mkspec_roots = qmake_mkspec_paths(); debug_msg(2, "Looking for mkspec %s in (%s)", qmakespec.toLatin1().constData(), mkspec_roots.join("::").toLatin1().constData()); bool found_mkspec = false; for (QStringList::ConstIterator it = mkspec_roots.begin(); it != mkspec_roots.end(); ++it) { QString mkspec = (*it) + QLatin1Char('/') + qmakespec; if (QFile::exists(mkspec)) { found_mkspec = true; *specp = qmakespec = mkspec; break; } } if (!found_mkspec) { fprintf(stderr, "Could not find mkspecs for your QMAKESPEC(%s) after trying:\n\t%s\n", qmakespec.toLatin1().constData(), mkspec_roots.join("\n\t").toLatin1().constData()); return false; } } // parse qmake configuration while(qmakespec.endsWith(QLatin1Char('/'))) qmakespec.truncate(qmakespec.length()-1); QString spec = qmakespec + QLatin1String("/qmake.conf"); debug_msg(1, "QMAKESPEC conf: reading %s", spec.toLatin1().constData()); if(!read(spec, base_vars)) { fprintf(stderr, "Failure to read QMAKESPEC conf file %s.\n", spec.toLatin1().constData()); return false; } validateModes(); if (!conffile.isEmpty()) { debug_msg(1, "Project config file: reading %s", conffile.toLatin1().constData()); read(conffile, base_vars); } if (!cachefile.isEmpty()) { debug_msg(1, "QMAKECACHE file: reading %s", cachefile.toLatin1().constData()); read(cachefile, base_vars); } } } vars = base_vars; // start with the base for (QHash::ConstIterator it = extra_vars.constBegin(); it != extra_vars.constEnd(); ++it) vars.insert(it.key(), it.value()); if(cmd & ReadFeatures) { debug_msg(1, "Processing default_pre: %s", vars["CONFIG"].join("::").toLatin1().constData()); doProjectInclude("default_pre", IncludeFlagFeature, vars); } //get a default if(pfile != "-" && vars["TARGET"].isEmpty()) vars["TARGET"].append(QFileInfo(pfile).baseName()); //before commandline if (cmd & ReadSetup) { parser.file = "(internal)"; parser.from_file = false; parser.line_no = 1; //really arg count now.. duh reset(); for(QStringList::ConstIterator it = Option::before_user_vars.begin(); it != Option::before_user_vars.end(); ++it) { if(!parse((*it), vars)) { fprintf(stderr, "Argument failed to parse: %s\n", (*it).toLatin1().constData()); return false; } parser.line_no++; } } // After user configs, to override them if (!extra_configs.isEmpty()) { parser.file = "(extra configs)"; parser.from_file = false; parser.line_no = 1; //really arg count now.. duh parse("CONFIG += " + extra_configs.join(" "), vars); } if(cmd & ReadProFile) { // parse project file debug_msg(1, "Project file: reading %s", pfile.toLatin1().constData()); if(pfile != "-" && !QFile::exists(pfile) && !pfile.endsWith(Option::pro_ext)) pfile += Option::pro_ext; if(!read(pfile, vars)) return false; if (need_restart) { base_vars.clear(); cleanup(); goto again; } } if (cmd & ReadSetup) { parser.file = "(internal)"; parser.from_file = false; parser.line_no = 1; //really arg count now.. duh reset(); for(QStringList::ConstIterator it = Option::after_user_vars.begin(); it != Option::after_user_vars.end(); ++it) { if(!parse((*it), vars)) { fprintf(stderr, "Argument failed to parse: %s\n", (*it).toLatin1().constData()); return false; } parser.line_no++; } } // Again, to ensure the project does not mess with us. // Specifically, do not allow a project to override debug/release within a // debug_and_release build pass - it's too late for that at this point anyway. if (!extra_configs.isEmpty()) { parser.file = "(extra configs)"; parser.from_file = false; parser.line_no = 1; //really arg count now.. duh parse("CONFIG += " + extra_configs.join(" "), vars); } if(cmd & ReadFeatures) { debug_msg(1, "Processing default_post: %s", vars["CONFIG"].join("::").toLatin1().constData()); doProjectInclude("default_post", IncludeFlagFeature, vars); QHash processed; const QStringList &configs = vars["CONFIG"]; debug_msg(1, "Processing CONFIG features: %s", configs.join("::").toLatin1().constData()); while(1) { bool finished = true; for(int i = configs.size()-1; i >= 0; --i) { const QString config = configs[i].toLower(); if(!processed.contains(config)) { processed.insert(config, true); if(doProjectInclude(config, IncludeFlagFeature, vars) == IncludeSuccess) { finished = false; break; } } } if(finished) break; } } return true; } void QMakeProject::validateModes() { if (Option::host_mode == Option::HOST_UNKNOWN_MODE || Option::target_mode == Option::TARG_UNKNOWN_MODE) { Option::HOST_MODE host_mode; Option::TARG_MODE target_mode; const QStringList &gen = base_vars.value("MAKEFILE_GENERATOR"); if (gen.isEmpty()) { fprintf(stderr, "%s:%d: Using OS scope before setting MAKEFILE_GENERATOR\n", parser.file.toLatin1().constData(), parser.line_no); } else if (MetaMakefileGenerator::modesForGenerator(gen.first(), &host_mode, &target_mode)) { if (Option::host_mode == Option::HOST_UNKNOWN_MODE) { Option::host_mode = host_mode; Option::applyHostMode(); } if (Option::target_mode == Option::TARG_UNKNOWN_MODE) { const QStringList &tgt = base_vars.value("TARGET_PLATFORM"); if (!tgt.isEmpty()) { const QString &os = tgt.first(); if (os == "unix") Option::target_mode = Option::TARG_UNIX_MODE; else if (os == "macx") Option::target_mode = Option::TARG_MACX_MODE; else if (os == "win32") Option::target_mode = Option::TARG_WIN_MODE; else fprintf(stderr, "Unknown target platform specified: %s\n", os.toLatin1().constData()); } else { Option::target_mode = target_mode; } } } } } void QMakeProject::resolveSpec(QString *spec, const QString &qmakespec) { if (spec->isEmpty()) { *spec = QFileInfo(qmakespec).fileName(); if (*spec == "default" || *spec == "default-host") { #ifdef Q_OS_UNIX char buffer[1024]; int l = readlink(qmakespec.toLatin1().constData(), buffer, 1023); if (l != -1) { buffer[l] = '\0'; *spec = QString::fromLatin1(buffer); #else // We can't resolve symlinks as they do on Unix, so configure.exe puts the source of the // qmake.conf at the end of the default/qmake.conf in the QMAKESPEC_ORG variable. const QStringList &spec_org = base_vars["QMAKESPEC_ORIGINAL"]; if (spec_org.isEmpty()) { // try again the next time around *spec = QString(); } else { *spec = spec_org.at(0); #endif int lastSlash = spec->lastIndexOf(QLatin1Char('/')); if (lastSlash != -1) spec->remove(0, lastSlash + 1); } } } } bool QMakeProject::isActiveConfig(const QString &x, bool regex, QHash *place) { if(x.isEmpty()) return true; //magic types for easy flipping if(x == "true") return true; else if(x == "false") return false; if (x == "unix") { validateModes(); return Option::target_mode == Option::TARG_UNIX_MODE || Option::target_mode == Option::TARG_MACX_MODE; } else if (x == "macx" || x == "mac") { validateModes(); return Option::target_mode == Option::TARG_MACX_MODE; } else if (x == "win32") { validateModes(); return Option::target_mode == Option::TARG_WIN_MODE; } if (x == "host_build") return host_build ? "true" : "false"; //mkspecs static QString hspec, xspec; resolveSpec(&hspec, Option::mkfile::qmakespec); resolveSpec(&xspec, Option::mkfile::xqmakespec); const QString &spec = host_build ? hspec : xspec; QRegExp re(x, Qt::CaseSensitive, QRegExp::Wildcard); if((regex && re.exactMatch(spec)) || (!regex && spec == x)) return true; //simple matching const QStringList &configs = (place ? (*place)["CONFIG"] : vars["CONFIG"]); for(QStringList::ConstIterator it = configs.begin(); it != configs.end(); ++it) { if(((regex && re.exactMatch((*it))) || (!regex && (*it) == x)) && re.exactMatch((*it))) return true; } return false; } bool QMakeProject::doProjectTest(QString str, QHash &place) { QString chk = remove_quotes(str); if(chk.isEmpty()) return true; bool invert_test = (chk.left(1) == "!"); if(invert_test) chk = chk.mid(1); bool test=false; int lparen = chk.indexOf('('); if(lparen != -1) { // if there is an lparen in the chk, it IS a function int rparen = chk.indexOf(')', lparen); if(rparen == -1) { qmake_error_msg("Function missing right paren: " + chk); } else { QString func = chk.left(lparen); test = doProjectTest(func, chk.mid(lparen+1, rparen - lparen - 1), place); } } else { test = isActiveConfig(chk, true, &place); } if(invert_test) return !test; return test; } bool QMakeProject::doProjectTest(QString func, const QString ¶ms, QHash &place) { return doProjectTest(func, split_arg_list(params), place); } QMakeProject::IncludeStatus QMakeProject::doProjectInclude(QString file, uchar flags, QHash &place) { if(flags & IncludeFlagFeature) { if(!file.endsWith(Option::prf_ext)) file += Option::prf_ext; validateModes(); // init dir_sep if(file.indexOf(QLatin1Char('/')) == -1 || !QFile::exists(file)) { QStringList *&feature_roots = all_feature_roots[host_build]; if(!feature_roots) { feature_roots = new QStringList; qmakeAddCacheClear(qmakeDeleteCacheClear, (void**)&feature_roots); } if (feature_roots->isEmpty()) *feature_roots = qmake_feature_paths(prop, host_build); debug_msg(2, "Looking for feature '%s' in (%s)", file.toLatin1().constData(), feature_roots->join("::").toLatin1().constData()); int start_root = 0; if(parser.from_file) { QFileInfo currFile(parser.file), prfFile(file); if(currFile.fileName() == prfFile.fileName()) { currFile = QFileInfo(currFile.canonicalFilePath()); for(int root = 0; root < feature_roots->size(); ++root) { prfFile = QFileInfo(feature_roots->at(root) + QLatin1Char('/') + file).canonicalFilePath(); if(prfFile == currFile) { start_root = root+1; break; } } } } for(int root = start_root; root < feature_roots->size(); ++root) { QString prf(feature_roots->at(root) + QLatin1Char('/') + file); if (QFile::exists(prf)) { file = prf; goto foundf; } } return IncludeNoExist; foundf: ; } if(place["QMAKE_INTERNAL_INCLUDED_FEATURES"].indexOf(file) != -1) return IncludeFeatureAlreadyLoaded; place["QMAKE_INTERNAL_INCLUDED_FEATURES"].append(file); } if(QDir::isRelativePath(file)) { QStringList include_roots; if(Option::output_dir != qmake_getpwd()) include_roots << qmake_getpwd(); include_roots << Option::output_dir; for(int root = 0; root < include_roots.size(); ++root) { QString testName = QDir::fromNativeSeparators(include_roots[root]); if (!testName.endsWith(QLatin1Char('/'))) testName += QLatin1Char('/'); testName += file; if(QFile::exists(testName)) { file = testName; goto foundi; } } return IncludeNoExist; foundi: ; } else if (!QFile::exists(file)) { return IncludeNoExist; } if(Option::mkfile::do_preprocess) //nice to see this first.. fprintf(stderr, "#switching file %s(%s) - %s:%d\n", (flags & IncludeFlagFeature) ? "load" : "include", file.toLatin1().constData(), parser.file.toLatin1().constData(), parser.line_no); debug_msg(1, "Project Parser: %s'ing file %s.", (flags & IncludeFlagFeature) ? "load" : "include", file.toLatin1().constData()); QString orig_file = file; int di = file.lastIndexOf(QLatin1Char('/')); QString oldpwd = qmake_getpwd(); if(di != -1) { if(!qmake_setpwd(file.left(file.lastIndexOf(QLatin1Char('/'))))) { fprintf(stderr, "Cannot find directory: %s\n", file.left(di).toLatin1().constData()); return IncludeFailure; } } bool parsed = false; parser_info pi = parser; { if(flags & (IncludeFlagNewProject|IncludeFlagNewParser)) { // The "project's variables" are used in other places (eg. export()) so it's not // possible to use "place" everywhere. Instead just set variables and grab them later QMakeProject proj(prop); if(flags & IncludeFlagNewParser) { parsed = proj.read(file, proj.variables()); // parse just that file (fromfile, infile) } else { parsed = proj.read(file); // parse all aux files (load/include into) } place = proj.variables(); } else { QStack sc = scope_blocks; IteratorBlock *it = iterator; FunctionBlock *fu = function; parsed = read(file, place); iterator = it; function = fu; scope_blocks = sc; } } if(parsed) { if(place["QMAKE_INTERNAL_INCLUDED_FILES"].indexOf(orig_file) == -1) place["QMAKE_INTERNAL_INCLUDED_FILES"].append(orig_file); } else { warn_msg(WarnParser, "%s:%d: Failure to include file %s.", pi.file.toLatin1().constData(), pi.line_no, orig_file.toLatin1().constData()); } parser = pi; qmake_setpwd(oldpwd); if(!parsed) return IncludeParseFailure; return IncludeSuccess; } static void subAll(QStringList *val, const QStringList &diffval) { foreach (const QString &dv, diffval) val->removeAll(dv); } inline static bool isSpecialChar(ushort c) { // Chars that should be quoted (TM). This includes: #ifdef Q_OS_WIN // - control chars & space // - the shell meta chars "&()<>^| // - the potential separators ,;= static const uchar iqm[] = { 0xff, 0xff, 0xff, 0xff, 0x45, 0x13, 0x00, 0x78, 0x00, 0x00, 0x00, 0x40, 0x00, 0x00, 0x00, 0x10 }; #else static const uchar iqm[] = { 0xff, 0xff, 0xff, 0xff, 0xdf, 0x07, 0x00, 0xd8, 0x00, 0x00, 0x00, 0x38, 0x01, 0x00, 0x00, 0x78 }; // 0-32 \'"$`<>|;&(){}*?#!~[] #endif return (c < sizeof(iqm) * 8) && (iqm[c / 8] & (1 << (c & 7))); } inline static bool hasSpecialChars(const QString &arg) { for (int x = arg.length() - 1; x >= 0; --x) if (isSpecialChar(arg.unicode()[x].unicode())) return true; return false; } static QString shellQuote(const QString &arg) { if (!arg.length()) return QString::fromLatin1("\"\""); QString ret(arg); if (hasSpecialChars(ret)) { #ifdef Q_OS_WIN // Quotes are escaped and their preceding backslashes are doubled. // It's impossible to escape anything inside a quoted string on cmd // level, so the outer quoting must be "suspended". ret.replace(QRegExp(QLatin1String("(\\\\*)\"")), QLatin1String("\"\\1\\1\\^\"\"")); // The argument must not end with a \ since this would be interpreted // as escaping the quote -- rather put the \ behind the quote: e.g. // rather use "foo"\ than "foo\" int i = ret.length(); while (i > 0 && ret.at(i - 1) == QLatin1Char('\\')) --i; ret.insert(i, QLatin1Char('"')); ret.prepend(QLatin1Char('"')); #else // Q_OS_WIN ret.replace(QLatin1Char('\''), QLatin1String("'\\''")); ret.prepend(QLatin1Char('\'')); ret.append(QLatin1Char('\'')); #endif // Q_OS_WIN } return ret; } static QString quoteValue(const QString &val) { QString ret; ret.reserve(val.length()); bool quote = val.isEmpty(); bool escaping = false; for (int i = 0, l = val.length(); i < l; i++) { QChar c = val.unicode()[i]; ushort uc = c.unicode(); if (uc < 32) { if (!escaping) { escaping = true; ret += QLatin1String("$$escape_expand("); } switch (uc) { case '\r': ret += QLatin1String("\\\\r"); break; case '\n': ret += QLatin1String("\\\\n"); break; case '\t': ret += QLatin1String("\\\\t"); break; default: ret += QString::fromLatin1("\\\\x%1").arg(uc, 2, 16, QLatin1Char('0')); break; } } else { if (escaping) { escaping = false; ret += QLatin1Char(')'); } switch (uc) { case '\\': ret += QLatin1String("\\\\"); break; case '"': ret += QLatin1String("\\\""); break; case '\'': ret += QLatin1String("\\'"); break; case '$': ret += QLatin1String("\\$"); break; case '#': ret += QLatin1String("$${LITERAL_HASH}"); break; case 32: quote = true; // fallthrough default: ret += c; break; } } } if (escaping) ret += QLatin1Char(')'); if (quote) { ret.prepend(QLatin1Char('"')); ret.append(QLatin1Char('"')); } return ret; } static bool writeFile(const QString &name, QIODevice::OpenMode mode, const QString &contents, QString *errStr) { QByteArray bytes = contents.toLocal8Bit(); QFile cfile(name); if (!(mode & QIODevice::Append) && cfile.open(QIODevice::ReadOnly | QIODevice::Text)) { if (cfile.readAll() == bytes) return true; cfile.close(); } if (!cfile.open(mode | QIODevice::WriteOnly | QIODevice::Text)) { *errStr = cfile.errorString(); return false; } cfile.write(bytes); cfile.close(); if (cfile.error() != QFile::NoError) { *errStr = cfile.errorString(); return false; } return true; } static QByteArray getCommandOutput(const QString &args) { QByteArray out; if (FILE *proc = QT_POPEN(args.toLatin1().constData(), "r")) { while (!feof(proc)) { char buff[10 * 1024]; int read_in = int(fread(buff, 1, sizeof(buff), proc)); if (!read_in) break; out += QByteArray(buff, read_in); } QT_PCLOSE(proc); } return out; } #ifdef Q_OS_WIN static QString windowsErrorCode() { wchar_t *string = 0; FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER|FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError(), MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPWSTR)&string, 0, NULL); QString ret = QString::fromWCharArray(string); LocalFree((HLOCAL)string); return ret; } #endif QStringList QMakeProject::doProjectExpand(QString func, const QString ¶ms, QHash &place) { return doProjectExpand(func, split_arg_list(params), place); } QStringList QMakeProject::doProjectExpand(QString func, QStringList args, QHash &place) { QList args_list; for(int i = 0; i < args.size(); ++i) { QStringList arg = split_value_list(args[i]), tmp; for(int i = 0; i < arg.size(); ++i) tmp += doVariableReplaceExpand(arg[i], place);; args_list += tmp; } return doProjectExpand(func, args_list, place); } static void populateDeps(const QStringList &deps, const QString &prefix, QHash > &dependencies, QHash &dependees, QStringList &rootSet, QHash &place) { foreach (const QString &item, deps) if (!dependencies.contains(item)) { QSet &dset = dependencies[item]; // Always create entry QStringList depends = place.value(prefix + item + ".depends"); if (depends.isEmpty()) { rootSet << item; } else { foreach (const QString &dep, depends) { dset.insert(dep); dependees[dep] << item; } populateDeps(depends, prefix, dependencies, dependees, rootSet, place); } } } QStringList QMakeProject::doProjectExpand(QString func, QList args_list, QHash &place) { func = func.trimmed(); if(replaceFunctions.contains(func)) { FunctionBlock *defined = replaceFunctions[func]; function_blocks.push(defined); QStringList ret; defined->exec(args_list, this, place, ret); bool correct = function_blocks.pop() == defined; Q_ASSERT(correct); Q_UNUSED(correct); return ret; } QStringList args; //why don't the builtin functions just use args_list? --Sam for(int i = 0; i < args_list.size(); ++i) args += args_list[i].join(QString(Option::field_sep)); ExpandFunc func_t = qmake_expandFunctions().value(func); if (!func_t && (func_t = qmake_expandFunctions().value(func.toLower()))) warn_msg(WarnDeprecated, "%s:%d: Using uppercased builtin functions is deprecated.", parser.file.toLatin1().constData(), parser.line_no); debug_msg(1, "Running project expand: %s(%s) [%d]", func.toLatin1().constData(), args.join("::").toLatin1().constData(), func_t); QStringList ret; switch(func_t) { case E_MEMBER: { if(args.count() < 1 || args.count() > 3) { fprintf(stderr, "%s:%d: member(var, start, end) requires three arguments.\n", parser.file.toLatin1().constData(), parser.line_no); } else { bool ok = true; const QStringList &var = values(args.first(), place); int start = 0, end = 0; if(args.count() >= 2) { QString start_str = args[1]; start = start_str.toInt(&ok); if(!ok) { if(args.count() == 2) { int dotdot = start_str.indexOf(".."); if(dotdot != -1) { start = start_str.left(dotdot).toInt(&ok); if(ok) end = start_str.mid(dotdot+2).toInt(&ok); } } if(!ok) fprintf(stderr, "%s:%d: member() argument 2 (start) '%s' invalid.\n", parser.file.toLatin1().constData(), parser.line_no, start_str.toLatin1().constData()); } else { end = start; if(args.count() == 3) end = args[2].toInt(&ok); if(!ok) fprintf(stderr, "%s:%d: member() argument 3 (end) '%s' invalid.\n", parser.file.toLatin1().constData(), parser.line_no, args[2].toLatin1().constData()); } } if(ok) { if(start < 0) start += var.count(); if(end < 0) end += var.count(); if(start < 0 || start >= var.count() || end < 0 || end >= var.count()) { //nothing } else if(start < end) { for(int i = start; i <= end && (int)var.count() >= i; i++) ret += var[i]; } else { for(int i = start; i >= end && (int)var.count() >= i && i >= 0; i--) ret += var[i]; } } } break; } case E_FIRST: case E_LAST: { if(args.count() != 1) { fprintf(stderr, "%s:%d: %s(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); } else { const QStringList &var = values(args.first(), place); if(!var.isEmpty()) { if(func_t == E_FIRST) ret = QStringList(var[0]); else ret = QStringList(var[var.size()-1]); } } break; } case E_CAT: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: cat(file) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString file = Option::normalizePath(args[0]); bool blob = false; bool lines = false; bool singleLine = true; if (args.count() > 1) { if (!args.at(1).compare(QLatin1String("false"), Qt::CaseInsensitive)) singleLine = false; else if (!args.at(1).compare(QLatin1String("blob"), Qt::CaseInsensitive)) blob = true; else if (!args.at(1).compare(QLatin1String("lines"), Qt::CaseInsensitive)) lines = true; } QFile qfile(file); if(qfile.open(QIODevice::ReadOnly)) { QTextStream stream(&qfile); if (blob) { ret += stream.readAll(); } else { while (!stream.atEnd()) { if (lines) { ret += stream.readLine(); } else { ret += split_value_list(stream.readLine().trimmed()); if (!singleLine) ret += "\n"; } } } } } break; } case E_FROMFILE: { if(args.count() != 2) { fprintf(stderr, "%s:%d: fromfile(file, variable) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString seek_var = args[1], file = Option::normalizePath(args[0]); QHash tmp; if(doProjectInclude(file, IncludeFlagNewParser, tmp) == IncludeSuccess) { if(tmp.contains("QMAKE_INTERNAL_INCLUDED_FILES")) { QStringList &out = place["QMAKE_INTERNAL_INCLUDED_FILES"]; const QStringList &in = tmp["QMAKE_INTERNAL_INCLUDED_FILES"]; for(int i = 0; i < in.size(); ++i) { if(out.indexOf(in[i]) == -1) out += in[i]; } } ret = tmp[seek_var]; } } break; } case E_EVAL: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: eval(variable) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { const QHash *source = &place; if(args.count() == 2) { if(args.at(1) == "Global") { source = &vars; } else if(args.at(1) == "Local") { source = &place; } else { fprintf(stderr, "%s:%d: unexpected source to eval.\n", parser.file.toLatin1().constData(), parser.line_no); } } ret += source->value(args.at(0)); } break; } case E_LIST: { static int x = 0; QString tmp; tmp.sprintf(".QMAKE_INTERNAL_TMP_VAR_%d", x++); ret = QStringList(tmp); QStringList &lst = (*((QHash*)&place))[tmp]; lst.clear(); for(QStringList::ConstIterator arg_it = args.begin(); arg_it != args.end(); ++arg_it) lst += split_value_list((*arg_it)); break; } case E_SPRINTF: { if(args.count() < 1) { fprintf(stderr, "%s:%d: sprintf(format, ...) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString tmp = args.at(0); for(int i = 1; i < args.count(); ++i) tmp = tmp.arg(args.at(i)); ret = split_value_list(tmp); } break; } case E_FORMAT_NUMBER: if (args.count() > 2) { fprintf(stderr, "%s:%d: format_number(number[, options...]) requires one or two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); } else { int ibase = 10; int obase = 10; int width = 0; bool zeropad = false; bool leftalign = false; enum { DefaultSign, PadSign, AlwaysSign } sign = DefaultSign; if (args.count() >= 2) { foreach (const QString &opt, split_value_list(args.at(1))) { if (opt.startsWith(QLatin1String("ibase="))) { ibase = opt.mid(6).toInt(); } else if (opt.startsWith(QLatin1String("obase="))) { obase = opt.mid(6).toInt(); } else if (opt.startsWith(QLatin1String("width="))) { width = opt.mid(6).toInt(); } else if (opt == QLatin1String("zeropad")) { zeropad = true; } else if (opt == QLatin1String("padsign")) { sign = PadSign; } else if (opt == QLatin1String("alwayssign")) { sign = AlwaysSign; } else if (opt == QLatin1String("leftalign")) { leftalign = true; } else { fprintf(stderr, "%s:%d: format_number(): invalid format option %s.\n", parser.file.toLatin1().constData(), parser.line_no, opt.toLatin1().constData()); goto formfail; } } } if (args.at(0).contains(QLatin1Char('.'))) { fprintf(stderr, "%s:%d: format_number(): floats are currently not supported.\n", parser.file.toLatin1().constData(), parser.line_no); break; } bool ok; qlonglong num = args.at(0).toLongLong(&ok, ibase); if (!ok) { fprintf(stderr, "%s:%d: format_number(): malformed number %s for base %d.\n", parser.file.toLatin1().constData(), parser.line_no, args.at(0).toLatin1().constData(), ibase); break; } QString outstr; if (num < 0) { num = -num; outstr = QLatin1Char('-'); } else if (sign == AlwaysSign) { outstr = QLatin1Char('+'); } else if (sign == PadSign) { outstr = QLatin1Char(' '); } QString numstr = QString::number(num, obase); int space = width - outstr.length() - numstr.length(); if (space <= 0) { outstr += numstr; } else if (leftalign) { outstr += numstr + QString(space, QLatin1Char(' ')); } else if (zeropad) { outstr += QString(space, QLatin1Char('0')) + numstr; } else { outstr.prepend(QString(space, QLatin1Char(' '))); outstr += numstr; } ret += outstr; } formfail: break; case E_JOIN: { if(args.count() < 1 || args.count() > 4) { fprintf(stderr, "%s:%d: join(var, glue, before, after) requires four" "arguments.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString glue, before, after; if(args.count() >= 2) glue = args[1]; if(args.count() >= 3) before = args[2]; if(args.count() == 4) after = args[3]; const QStringList &var = values(args.first(), place); if(!var.isEmpty()) ret = split_value_list(before + var.join(glue) + after); } break; } case E_SPLIT: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d split(var, sep) requires one or two arguments\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString sep = QString(Option::field_sep); if(args.count() >= 2) sep = args[1]; QStringList var = values(args.first(), place); for(QStringList::ConstIterator vit = var.begin(); vit != var.end(); ++vit) { QStringList lst = (*vit).split(sep); for(QStringList::ConstIterator spltit = lst.begin(); spltit != lst.end(); ++spltit) ret += (*spltit); } } break; } case E_BASENAME: case E_DIRNAME: case E_SECTION: { bool regexp = false; QString sep, var; int beg=0, end=-1; if(func_t == E_SECTION) { if(args.count() != 3 && args.count() != 4) { fprintf(stderr, "%s:%d section(var, sep, begin, end) requires three argument\n", parser.file.toLatin1().constData(), parser.line_no); } else { var = args[0]; sep = args[1]; beg = args[2].toInt(); if(args.count() == 4) end = args[3].toInt(); } } else { if(args.count() != 1) { fprintf(stderr, "%s:%d %s(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); } else { var = args[0]; regexp = true; sep = "[" + QRegExp::escape(Option::dir_sep) + "/]"; if(func_t == E_DIRNAME) end = -2; else beg = -1; } } if(!var.isNull()) { const QStringList &l = values(var, place); for(QStringList::ConstIterator it = l.begin(); it != l.end(); ++it) { QString separator = sep; if(regexp) ret += (*it).section(QRegExp(separator), beg, end); else ret += (*it).section(separator, beg, end); } } break; } case E_FIND: { if(args.count() != 2) { fprintf(stderr, "%s:%d find(var, str) requires two arguments\n", parser.file.toLatin1().constData(), parser.line_no); } else { QRegExp regx(args[1]); const QStringList &var = values(args.first(), place); for(QStringList::ConstIterator vit = var.begin(); vit != var.end(); ++vit) { if(regx.indexIn(*vit) != -1) ret += (*vit); } } break; } case E_SYSTEM: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d system(execut) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { bool blob = false; bool lines = false; bool singleLine = true; if (args.count() > 1) { if (!args.at(1).compare(QLatin1String("false"), Qt::CaseInsensitive)) singleLine = false; else if (!args.at(1).compare(QLatin1String("blob"), Qt::CaseInsensitive)) blob = true; else if (!args.at(1).compare(QLatin1String("lines"), Qt::CaseInsensitive)) lines = true; } QByteArray bytes = getCommandOutput(args.at(0)); if (lines) { QTextStream stream(bytes); while (!stream.atEnd()) ret += stream.readLine(); } else { QString output = QString::fromLocal8Bit(bytes); if (blob) { ret += output; } else { output.replace(QLatin1Char('\t'), QLatin1Char(' ')); if (singleLine) output.replace(QLatin1Char('\n'), QLatin1Char(' ')); ret += split_value_list(output); } } } break; } case E_UNIQUE: { if(args.count() != 1) { fprintf(stderr, "%s:%d unique(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { const QStringList &var = values(args.first(), place); for(int i = 0; i < var.count(); i++) { if(!ret.contains(var[i])) ret.append(var[i]); } } break; } case E_REVERSE: if (args.count() != 1) { fprintf(stderr, "%s:%d reverse(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QStringList var = values(args.first(), place); for (int i = 0; i < var.size() / 2; i++) var.swap(i, var.size() - i - 1); ret += var; } break; case E_QUOTE: ret = args; break; case E_ESCAPE_EXPAND: { for(int i = 0; i < args.size(); ++i) { QChar *i_data = args[i].data(); int i_len = args[i].length(); for(int x = 0; x < i_len; ++x) { if(*(i_data+x) == '\\' && x < i_len-1) { if(*(i_data+x+1) == '\\') { ++x; } else { struct { char in, out; } mapped_quotes[] = { { 'n', '\n' }, { 't', '\t' }, { 'r', '\r' }, { 0, 0 } }; for(int i = 0; mapped_quotes[i].in; ++i) { if(*(i_data+x+1) == mapped_quotes[i].in) { *(i_data+x) = mapped_quotes[i].out; if(x < i_len-2) memmove(i_data+x+1, i_data+x+2, (i_len-x-2)*sizeof(QChar)); --i_len; break; } } } } } ret.append(QString(i_data, i_len)); } break; } case E_RE_ESCAPE: { for(int i = 0; i < args.size(); ++i) ret += QRegExp::escape(args[i]); break; } case E_VAL_ESCAPE: if (args.count() != 1) { fprintf(stderr, "%s:%d val_escape(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QStringList vals = values(args.at(0), place); ret.reserve(vals.length()); foreach (const QString &str, vals) ret += quoteValue(str); } break; case E_UPPER: case E_LOWER: { for(int i = 0; i < args.size(); ++i) { if(func_t == E_UPPER) ret += args[i].toUpper(); else ret += args[i].toLower(); } break; } case E_FILES: { if(args.count() != 1 && args.count() != 2) { fprintf(stderr, "%s:%d files(pattern) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { bool recursive = false; if(args.count() == 2) recursive = (args[1].toLower() == "true" || args[1].toInt()); QStringList dirs; QString r = Option::normalizePath(args[0]); int slash = r.lastIndexOf(QLatin1Char('/')); if(slash != -1) { dirs.append(r.left(slash)); r = r.mid(slash+1); } else { dirs.append(""); } QRegExp regex(r, Qt::CaseSensitive, QRegExp::Wildcard); for(int d = 0; d < dirs.count(); d++) { QString dir = dirs[d]; if (!dir.isEmpty() && !dir.endsWith(QLatin1Char('/'))) dir += "/"; QDir qdir(dir); for(int i = 0; i < (int)qdir.count(); ++i) { if(qdir[i] == "." || qdir[i] == "..") continue; QString fname = dir + qdir[i]; if(QFileInfo(fname).isDir()) { if(recursive) dirs.append(fname); } if(regex.exactMatch(qdir[i])) ret += fname; } } } break; } case E_PROMPT: { if(args.count() != 1) { fprintf(stderr, "%s:%d prompt(question) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else if(pfile == "-") { fprintf(stderr, "%s:%d prompt(question) cannot be used when '-o -' is used.\n", parser.file.toLatin1().constData(), parser.line_no); } else { QString msg = fixEnvVariables(args.first()); if(!msg.endsWith("?")) msg += "?"; fprintf(stderr, "Project %s: %s ", func.toUpper().toLatin1().constData(), msg.toLatin1().constData()); QFile qfile; if(qfile.open(stdin, QIODevice::ReadOnly)) { QTextStream t(&qfile); ret = split_value_list(t.readLine()); } } break; } case E_REPLACE: { if(args.count() != 3 ) { fprintf(stderr, "%s:%d replace(var, before, after) requires three arguments\n", parser.file.toLatin1().constData(), parser.line_no); } else { const QRegExp before( args[1] ); const QString after( args[2] ); QStringList var = values(args.first(), place); for(QStringList::Iterator it = var.begin(); it != var.end(); ++it) ret += it->replace(before, after); } break; } case E_SIZE: { if(args.count() != 1) { fprintf(stderr, "%s:%d: size(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { int size = values(args[0], place).size(); ret += QString::number(size); } break; } case E_SORT_DEPENDS: case E_RESOLVE_DEPENDS: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: %s(var, prefix) requires one or two arguments.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); } else { QHash > dependencies; QHash dependees; QStringList rootSet; QStringList orgList = values(args[0], place); populateDeps(orgList, (args.count() != 2 ? QString() : args[1]), dependencies, dependees, rootSet, place); for (int i = 0; i < rootSet.size(); ++i) { const QString &item = rootSet.at(i); if ((func_t == E_RESOLVE_DEPENDS) || orgList.contains(item)) ret.prepend(item); foreach (const QString &dep, dependees[item]) { QSet &dset = dependencies[dep]; dset.remove(rootSet.at(i)); // *Don't* use 'item' - rootSet may have changed! if (dset.isEmpty()) rootSet << dep; } } } break; } case E_ENUMERATE_VARS: ret += place.keys(); break; case E_SHADOWED: { QString val = QDir::cleanPath(QFileInfo(args.at(0)).absoluteFilePath()); if (Option::mkfile::source_root.isEmpty()) ret += val; else if (val.startsWith(Option::mkfile::source_root)) ret += Option::mkfile::build_root + val.mid(Option::mkfile::source_root.length()); break; } case E_ABSOLUTE_PATH: if (args.count() > 2) fprintf(stderr, "%s:%d absolute_path(path[, base]) requires one or two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); else ret += QDir::cleanPath(QDir(args.count() > 1 ? args.at(1) : QString()) .absoluteFilePath(args.at(0))); break; case E_RELATIVE_PATH: if (args.count() > 2) fprintf(stderr, "%s:%d relative_path(path[, base]) requires one or two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); else ret += QDir::cleanPath(QDir(args.count() > 1 ? args.at(1) : QString()) .relativeFilePath(args.at(0))); break; case E_CLEAN_PATH: if (args.count() != 1) fprintf(stderr, "%s:%d clean_path(path) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); else ret += QDir::cleanPath(args.at(0)); break; case E_NATIVE_PATH: if (args.count() != 1) fprintf(stderr, "%s:%d native_path(path) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); else ret += Option::fixPathToTargetOS(args.at(0), false); break; case E_SHELL_QUOTE: if (args.count() != 1) fprintf(stderr, "%s:%d shell_quote(args) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); else ret += shellQuote(args.at(0)); break; default: { fprintf(stderr, "%s:%d: Unknown replace function: %s\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); break; } } return ret; } bool QMakeProject::doProjectTest(QString func, QStringList args, QHash &place) { QList args_list; for(int i = 0; i < args.size(); ++i) { QStringList arg = split_value_list(args[i]), tmp; for(int i = 0; i < arg.size(); ++i) tmp += doVariableReplaceExpand(arg[i], place); args_list += tmp; } return doProjectTest(func, args_list, place); } bool QMakeProject::doProjectTest(QString func, QList args_list, QHash &place) { func = func.trimmed(); if(testFunctions.contains(func)) { FunctionBlock *defined = testFunctions[func]; QStringList ret; function_blocks.push(defined); defined->exec(args_list, this, place, ret); bool correct = function_blocks.pop() == defined; Q_ASSERT(correct); Q_UNUSED(correct); if(ret.isEmpty()) { return true; } else { if(ret.first() == "true") { return true; } else if(ret.first() == "false") { return false; } else { bool ok; int val = ret.first().toInt(&ok); if(ok) return val; fprintf(stderr, "%s:%d Unexpected return value from test %s [%s].\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData(), ret.join("::").toLatin1().constData()); } return false; } return false; } QStringList args; //why don't the builtin functions just use args_list? --Sam for(int i = 0; i < args_list.size(); ++i) args += args_list[i].join(QString(Option::field_sep)); TestFunc func_t = qmake_testFunctions().value(func); debug_msg(1, "Running project test: %s(%s) [%d]", func.toLatin1().constData(), args.join("::").toLatin1().constData(), func_t); switch(func_t) { case T_REQUIRES: return doProjectCheckReqs(args, place); case T_LESSTHAN: case T_GREATERTHAN: { if(args.count() != 2) { fprintf(stderr, "%s:%d: %s(variable, value) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); return false; } QString rhs(args[1]), lhs(values(args[0], place).join(QString(Option::field_sep))); bool ok; int rhs_int = rhs.toInt(&ok); if(ok) { // do integer compare int lhs_int = lhs.toInt(&ok); if(ok) { if(func_t == T_GREATERTHAN) return lhs_int > rhs_int; return lhs_int < rhs_int; } } if(func_t == T_GREATERTHAN) return lhs > rhs; return lhs < rhs; } case T_IF: { if(args.count() != 1) { fprintf(stderr, "%s:%d: if(condition) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } const QString cond = args.first(); const QChar *d = cond.unicode(); QChar quote = 0; bool ret = true, or_op = false; QString test; for(int d_off = 0, parens = 0, d_len = cond.size(); d_off < d_len; ++d_off) { if(!quote.isNull()) { if(*(d+d_off) == quote) quote = QChar(); } else if(*(d+d_off) == '(') { ++parens; } else if(*(d+d_off) == ')') { --parens; } else if(*(d+d_off) == '"' /*|| *(d+d_off) == '\''*/) { quote = *(d+d_off); } if(!parens && quote.isNull() && (*(d+d_off) == QLatin1Char(':') || *(d+d_off) == QLatin1Char('|') || d_off == d_len-1)) { if(d_off == d_len-1) test += *(d+d_off); if(!test.isEmpty()) { if (or_op != ret) ret = doProjectTest(test, place); test.clear(); } if(*(d+d_off) == QLatin1Char(':')) { or_op = false; } else if(*(d+d_off) == QLatin1Char('|')) { or_op = true; } } else { test += *(d+d_off); } } return ret; } case T_EQUALS: if(args.count() != 2) { fprintf(stderr, "%s:%d: %s(variable, value) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); return false; } return values(args[0], place).join(QString(Option::field_sep)) == args[1]; case T_EXISTS: { if(args.count() != 1) { fprintf(stderr, "%s:%d: exists(file) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } QString file = Option::normalizePath(args.first()); if(QFile::exists(file)) return true; //regular expression I guess QString dirstr = qmake_getpwd(); int slsh = file.lastIndexOf(QLatin1Char('/')); if(slsh != -1) { dirstr = file.left(slsh+1); file = file.right(file.length() - slsh - 1); } return QDir(dirstr).entryList(QStringList(file)).count(); } case T_EXPORT: if(args.count() != 1) { fprintf(stderr, "%s:%d: export(variable) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } for(int i = 0; i < function_blocks.size(); ++i) { FunctionBlock *f = function_blocks.at(i); f->vars[args[0]] = values(args[0], place); if(!i && f->calling_place) (*f->calling_place)[args[0]] = values(args[0], place); } return true; case T_CLEAR: if(args.count() != 1) { fprintf(stderr, "%s:%d: clear(variable) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(!place.contains(args[0])) return false; place[args[0]].clear(); return true; case T_UNSET: if(args.count() != 1) { fprintf(stderr, "%s:%d: unset(variable) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(!place.contains(args[0])) return false; place.remove(args[0]); return true; case T_EVAL: { if(args.count() < 1 && 0) { fprintf(stderr, "%s:%d: eval(project) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } QString project = args.join(" "); parser_info pi = parser; parser.from_file = false; parser.file = "(eval)"; parser.line_no = 0; QTextStream t(&project, QIODevice::ReadOnly); bool ret = read(t, place); parser = pi; return ret; } case T_CONFIG: { if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: CONFIG(config) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(args.count() == 1) return isActiveConfig(args[0]); const QStringList mutuals = args[1].split('|'); const QStringList &configs = values("CONFIG", place); for(int i = configs.size()-1; i >= 0; i--) { for(int mut = 0; mut < mutuals.count(); mut++) { if(configs[i] == mutuals[mut].trimmed()) return (configs[i] == args[0]); } } return false; } case T_SYSTEM: if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: system(exec) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(args.count() == 2) { const QString sarg = args[1]; if (sarg.toLower() == "true" || sarg.toInt()) warn_msg(WarnParser, "%s:%d: system()'s second argument is now hard-wired to false.\n", parser.file.toLatin1().constData(), parser.line_no); } return system(args[0].toLatin1().constData()) == 0; case T_RETURN: if(function_blocks.isEmpty()) { fprintf(stderr, "%s:%d unexpected return()\n", parser.file.toLatin1().constData(), parser.line_no); } else { FunctionBlock *f = function_blocks.top(); f->cause_return = true; if(args_list.count() >= 1) f->return_value += args_list[0]; } return true; case T_BREAK: if(iterator) iterator->cause_break = true; else fprintf(stderr, "%s:%d unexpected break()\n", parser.file.toLatin1().constData(), parser.line_no); return true; case T_NEXT: if(iterator) iterator->cause_next = true; else fprintf(stderr, "%s:%d unexpected next()\n", parser.file.toLatin1().constData(), parser.line_no); return true; case T_DEFINED: if(args.count() < 1 || args.count() > 2) { fprintf(stderr, "%s:%d: defined(function) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); } else { if(args.count() > 1) { if(args[1] == "test") return testFunctions.contains(args[0]); else if(args[1] == "replace") return replaceFunctions.contains(args[0]); else if(args[1] == "var") return place.contains(args[0]); fprintf(stderr, "%s:%d: defined(function, type): unexpected type [%s].\n", parser.file.toLatin1().constData(), parser.line_no, args[1].toLatin1().constData()); } else { if(replaceFunctions.contains(args[0]) || testFunctions.contains(args[0])) return true; } } return false; case T_CONTAINS: { if(args.count() < 2 || args.count() > 3) { fprintf(stderr, "%s:%d: contains(var, val) requires at lesat 2 arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } QRegExp regx(args[1]); const QStringList &l = values(args[0], place); if(args.count() == 2) { for(int i = 0; i < l.size(); ++i) { const QString val = l[i]; if(regx.exactMatch(val) || val == args[1]) return true; } } else { const QStringList mutuals = args[2].split('|'); for(int i = l.size()-1; i >= 0; i--) { const QString val = l[i]; for(int mut = 0; mut < mutuals.count(); mut++) { if(val == mutuals[mut].trimmed()) return (regx.exactMatch(val) || val == args[1]); } } } return false; } case T_INFILE: { if(args.count() < 2 || args.count() > 3) { fprintf(stderr, "%s:%d: infile(file, var, val) requires at least 2 arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } bool ret = false; QHash tmp; if(doProjectInclude(Option::normalizePath(args[0]), IncludeFlagNewParser, tmp) == IncludeSuccess) { if(tmp.contains("QMAKE_INTERNAL_INCLUDED_FILES")) { QStringList &out = place["QMAKE_INTERNAL_INCLUDED_FILES"]; const QStringList &in = tmp["QMAKE_INTERNAL_INCLUDED_FILES"]; for(int i = 0; i < in.size(); ++i) { if(out.indexOf(in[i]) == -1) out += in[i]; } } if(args.count() == 2) { ret = tmp.contains(args[1]); } else { QRegExp regx(args[2]); const QStringList &l = tmp[args[1]]; for(QStringList::ConstIterator it = l.begin(); it != l.end(); ++it) { if(regx.exactMatch((*it)) || (*it) == args[2]) { ret = true; break; } } } } return ret; } case T_COUNT: if(args.count() != 2 && args.count() != 3) { fprintf(stderr, "%s:%d: count(var, count) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if(args.count() == 3) { QString comp = args[2]; if(comp == ">" || comp == "greaterThan") return values(args[0], place).count() > args[1].toInt(); if(comp == ">=") return values(args[0], place).count() >= args[1].toInt(); if(comp == "<" || comp == "lessThan") return values(args[0], place).count() < args[1].toInt(); if(comp == "<=") return values(args[0], place).count() <= args[1].toInt(); if(comp == "equals" || comp == "isEqual" || comp == "=" || comp == "==") return values(args[0], place).count() == args[1].toInt(); fprintf(stderr, "%s:%d: unexpected modifier to count(%s)\n", parser.file.toLatin1().constData(), parser.line_no, comp.toLatin1().constData()); return false; } return values(args[0], place).count() == args[1].toInt(); case T_ISEMPTY: if(args.count() != 1) { fprintf(stderr, "%s:%d: isEmpty(var) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } return values(args[0], place).isEmpty(); case T_INCLUDE: case T_LOAD: { QString parseInto; const bool include_statement = (func_t == T_INCLUDE); bool ignore_error = false; if(args.count() >= 2) { if(func_t == T_INCLUDE) { parseInto = args[1]; if (args.count() == 3){ QString sarg = args[2]; if (sarg.toLower() == "true" || sarg.toInt()) ignore_error = true; } } else { QString sarg = args[1]; ignore_error = (sarg.toLower() == "true" || sarg.toInt()); } } else if(args.count() != 1) { QString func_desc = "load(feature)"; if(include_statement) func_desc = "include(file)"; fprintf(stderr, "%s:%d: %s requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no, func_desc.toLatin1().constData()); return false; } QString file = Option::normalizePath(args.first()); uchar flags = IncludeFlagNone; if(!include_statement) flags |= IncludeFlagFeature; IncludeStatus stat = IncludeFailure; if(!parseInto.isEmpty()) { QHash symbols; stat = doProjectInclude(file, flags|IncludeFlagNewProject, symbols); if(stat == IncludeSuccess) { QHash out_place; for(QHash::ConstIterator it = place.begin(); it != place.end(); ++it) { const QString var = it.key(); if(var != parseInto && !var.startsWith(parseInto + ".")) out_place.insert(var, it.value()); } for(QHash::ConstIterator it = symbols.begin(); it != symbols.end(); ++it) { const QString var = it.key(); if(!var.startsWith(".")) out_place.insert(parseInto + "." + it.key(), it.value()); } place = out_place; } } else { stat = doProjectInclude(file, flags, place); } if(stat == IncludeFeatureAlreadyLoaded) { warn_msg(WarnParser, "%s:%d: Duplicate of loaded feature %s", parser.file.toLatin1().constData(), parser.line_no, file.toLatin1().constData()); } else if(stat == IncludeNoExist && !ignore_error) { warn_msg(WarnAll, "%s:%d: Unable to find file for inclusion %s", parser.file.toLatin1().constData(), parser.line_no, file.toLatin1().constData()); return false; } else if(stat >= IncludeFailure) { if(!ignore_error) { printf("Project LOAD(): Feature %s cannot be found.\n", file.toLatin1().constData()); if (!ignore_error) #if defined(QT_BUILD_QMAKE_LIBRARY) return false; #else exit(3); #endif } return false; } return true; } case T_DEBUG: { if(args.count() != 2) { fprintf(stderr, "%s:%d: debug(level, message) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } QString msg = fixEnvVariables(args[1]); debug_msg(args[0].toInt(), "Project DEBUG: %s", msg.toLatin1().constData()); return true; } case T_LOG: case T_ERROR: case T_MESSAGE: case T_WARNING: { if(args.count() != 1) { fprintf(stderr, "%s:%d: %s(message) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); return false; } QString msg = fixEnvVariables(args.first()); if (func_t == T_LOG) { fputs(msg.toLatin1().constData(), stderr); } else { fprintf(stderr, "Project %s: %s\n", func.toUpper().toLatin1().constData(), msg.toLatin1().constData()); if (func == "error") #if defined(QT_BUILD_QMAKE_LIBRARY) return false; #else exit(2); #endif } return true; } case T_OPTION: if (args.count() != 1) { fprintf(stderr, "%s:%d: option() requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if (args.first() == "recursive") { recursive = true; } else if (args.first() == "host_build") { if (!host_build && isActiveConfig("cross_compile")) { host_build = true; need_restart = true; } } else { fprintf(stderr, "%s:%d: unrecognized option() argument '%s'.\n", parser.file.toLatin1().constData(), parser.line_no, args.first().toLatin1().constData()); return false; } return true; case T_CACHE: { if (args.count() > 3) { fprintf(stderr, "%s:%d: cache(var, [set|add|sub] [transient], [srcvar]) requires one to three arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } bool persist = true; enum { CacheSet, CacheAdd, CacheSub } mode = CacheSet; QString srcvar; if (args.count() >= 2) { foreach (const QString &opt, split_value_list(args.at(1))) { if (opt == QLatin1String("transient")) { persist = false; } else if (opt == QLatin1String("set")) { mode = CacheSet; } else if (opt == QLatin1String("add")) { mode = CacheAdd; } else if (opt == QLatin1String("sub")) { mode = CacheSub; } else { fprintf(stderr, "%s:%d: cache(): invalid flag %s.\n", parser.file.toLatin1().constData(), parser.line_no, opt.toLatin1().constData()); return false; } } if (args.count() >= 3) { srcvar = args.at(2); } else if (mode != CacheSet) { fprintf(stderr, "%s:%d: cache(): modes other than 'set' require a source variable.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } } QString varstr; QString dstvar = args.at(0); if (!dstvar.isEmpty()) { if (srcvar.isEmpty()) srcvar = dstvar; if (!place.contains(srcvar)) { fprintf(stderr, "%s:%d: variable %s is not defined.\n", parser.file.toLatin1().constData(), parser.line_no, srcvar.toLatin1().constData()); return false; } // The current ("native") value can differ from the cached value, e.g., the current // CONFIG will typically have more values than the cached one. Therefore we deal with // them separately. const QStringList diffval = values(srcvar, place); const QStringList oldval = base_vars.value(dstvar); QStringList newval; if (mode == CacheSet) { newval = diffval; } else { newval = oldval; if (mode == CacheAdd) newval += diffval; else subAll(&newval, diffval); } // We assume that whatever got the cached value to be what it is now will do so // the next time as well, so it is OK that the early exit here will skip the // persisting as well. if (oldval == newval) return true; base_vars[dstvar] = newval; do { if (dstvar == "QMAKEPATH") cached_qmakepath = newval; else if (dstvar == "QMAKEFEATURES") cached_qmakefeatures = newval; else break; invalidateFeatureRoots(); } while (false); if (!persist) return true; varstr = dstvar; if (mode == CacheAdd) varstr += QLatin1String(" +="); else if (mode == CacheSub) varstr += QLatin1String(" -="); else varstr += QLatin1String(" ="); if (diffval.count() == 1) { varstr += QLatin1Char(' '); varstr += quoteValue(diffval.at(0)); } else if (!diffval.isEmpty()) { foreach (const QString &vval, diffval) { varstr += QLatin1String(" \\\n "); varstr += quoteValue(vval); } } varstr += QLatin1Char('\n'); } if (cachefile.isEmpty()) { cachefile = Option::output_dir + QLatin1String("/.qmake.cache"); printf("Info: creating cache file %s\n", cachefile.toLatin1().constData()); cached_build_root = Option::output_dir; cached_source_root = values("_PRO_FILE_PWD_", place).first(); if (cached_source_root == cached_build_root) cached_source_root.clear(); invalidateFeatureRoots(); } QFileInfo qfi(Option::mkfile::cachefile); if (!QDir::current().mkpath(qfi.path())) { fprintf(stderr, "%s:%d: ERROR creating cache directory %s\n", parser.file.toLatin1().constData(), parser.line_no, qfi.path().toLatin1().constData()); return false; } QString errStr; if (!writeFile(cachefile, QIODevice::Append, varstr, &errStr)) { fprintf(stderr, "ERROR writing cache file %s: %s\n", cachefile.toLatin1().constData(), errStr.toLatin1().constData()); #if defined(QT_BUILD_QMAKE_LIBRARY) return false; #else exit(2); #endif } return true; } case T_MKPATH: if (args.count() != 1) { fprintf(stderr, "%s:%d: mkpath(name) requires one argument.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } if (!QDir::current().mkpath(args.at(0))) { fprintf(stderr, "%s:%d: ERROR creating directory %s\n", parser.file.toLatin1().constData(), parser.line_no, QDir::toNativeSeparators(args.at(0)).toLatin1().constData()); return false; } return true; case T_WRITE_FILE: { if (args.count() > 3) { fprintf(stderr, "%s:%d: write_file(name, [content var, [append]]) requires one to three arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } QIODevice::OpenMode mode = QIODevice::Truncate; QString contents; if (args.count() >= 2) { QStringList vals = values(args.at(1), place); if (!vals.isEmpty()) contents = vals.join(QLatin1String("\n")) + QLatin1Char('\n'); if (args.count() >= 3) if (!args.at(2).compare(QLatin1String("append"), Qt::CaseInsensitive)) mode = QIODevice::Append; } QFileInfo qfi(args.at(0)); if (!QDir::current().mkpath(qfi.path())) { fprintf(stderr, "%s:%d: ERROR creating directory %s\n", parser.file.toLatin1().constData(), parser.line_no, qfi.path().toLatin1().constData()); return false; } QString errStr; if (!writeFile(args.at(0), mode, contents, &errStr)) { fprintf(stderr, "%s:%d ERROR writing %s: %s\n", parser.file.toLatin1().constData(), parser.line_no, args.at(0).toLatin1().constData(), errStr.toLatin1().constData()); return false; } return true; } case T_TOUCH: { if (args.count() != 2) { fprintf(stderr, "%s:%d: touch(file, reffile) requires two arguments.\n", parser.file.toLatin1().constData(), parser.line_no); return false; } #ifdef Q_OS_UNIX struct stat st; if (stat(args.at(1).toLocal8Bit().constData(), &st)) { fprintf(stderr, "%s:%d: ERROR: cannot stat() reference file %s: %s.\n", parser.file.toLatin1().constData(), parser.line_no, args.at(1).toLatin1().constData(), strerror(errno)); return false; } struct utimbuf utb; utb.actime = time(0); utb.modtime = st.st_mtime; if (utime(args.at(0).toLocal8Bit().constData(), &utb)) { fprintf(stderr, "%s:%d: ERROR: cannot touch %s: %s.\n", parser.file.toLatin1().constData(), parser.line_no, args.at(0).toLatin1().constData(), strerror(errno)); return false; } #else HANDLE rHand = CreateFile((wchar_t*)args.at(1).utf16(), GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if (rHand == INVALID_HANDLE_VALUE) { fprintf(stderr, "%s:%d: ERROR: cannot open() reference file %s: %s.\n", parser.file.toLatin1().constData(), parser.line_no, args.at(1).toLatin1().constData(), windowsErrorCode().toLatin1().constData()); return false; } FILETIME ft; GetFileTime(rHand, 0, 0, &ft); CloseHandle(rHand); HANDLE wHand = CreateFile((wchar_t*)args.at(0).utf16(), GENERIC_WRITE, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if (wHand == INVALID_HANDLE_VALUE) { fprintf(stderr, "%s:%d: ERROR: cannot open %s: %s.\n", parser.file.toLatin1().constData(), parser.line_no, args.at(0).toLatin1().constData(), windowsErrorCode().toLatin1().constData()); return false; } SetFileTime(wHand, 0, 0, &ft); CloseHandle(wHand); #endif break; } default: fprintf(stderr, "%s:%d: Unknown test function: %s\n", parser.file.toLatin1().constData(), parser.line_no, func.toLatin1().constData()); } return false; } bool QMakeProject::doProjectCheckReqs(const QStringList &deps, QHash &place) { bool ret = false; for(QStringList::ConstIterator it = deps.begin(); it != deps.end(); ++it) { bool test = doProjectTest((*it), place); if(!test) { debug_msg(1, "Project Parser: %s:%d Failed test: REQUIRES = %s", parser.file.toLatin1().constData(), parser.line_no, (*it).toLatin1().constData()); place["QMAKE_FAILED_REQUIREMENTS"].append((*it)); ret = false; } } return ret; } bool QMakeProject::test(const QString &v) { QHash tmp = vars; return doProjectTest(v, tmp); } bool QMakeProject::test(const QString &func, const QList &args) { QHash tmp = vars; return doProjectTest(func, args, tmp); } QStringList QMakeProject::expand(const QString &str) { bool ok; QHash tmp = vars; const QStringList ret = doVariableReplaceExpand(str, tmp, &ok); if(ok) return ret; return QStringList(); } QString QMakeProject::expand(const QString &str, const QString &file, int line) { bool ok; parser_info pi = parser; parser.file = file; parser.line_no = line; parser.from_file = false; QHash tmp = vars; const QStringList ret = doVariableReplaceExpand(str, tmp, &ok); parser = pi; return ok ? ret.join(QString(Option::field_sep)) : QString(); } QStringList QMakeProject::expand(const QString &func, const QList &args) { QHash tmp = vars; return doProjectExpand(func, args, tmp); } bool QMakeProject::doVariableReplace(QString &str, QHash &place) { bool ret; str = doVariableReplaceExpand(str, place, &ret).join(QString(Option::field_sep)); return ret; } QStringList QMakeProject::doVariableReplaceExpand(const QString &str, QHash &place, bool *ok) { QStringList ret; if(ok) *ok = true; if(str.isEmpty()) return ret; const ushort LSQUARE = '['; const ushort RSQUARE = ']'; const ushort LCURLY = '{'; const ushort RCURLY = '}'; const ushort LPAREN = '('; const ushort RPAREN = ')'; const ushort DOLLAR = '$'; const ushort SLASH = '\\'; const ushort UNDERSCORE = '_'; const ushort DOT = '.'; const ushort SPACE = ' '; const ushort TAB = '\t'; const ushort SINGLEQUOTE = '\''; const ushort DOUBLEQUOTE = '"'; ushort unicode, quote = 0; const QChar *str_data = str.data(); const int str_len = str.length(); ushort term; QString var, args; int replaced = 0; QString current; for(int i = 0; i < str_len; ++i) { unicode = str_data[i].unicode(); const int start_var = i; if(unicode == DOLLAR && str_len > i+2) { unicode = str_data[++i].unicode(); if(unicode == DOLLAR) { term = 0; var.clear(); args.clear(); enum { VAR, ENVIRON, FUNCTION, PROPERTY } var_type = VAR; unicode = str_data[++i].unicode(); if(unicode == LSQUARE) { unicode = str_data[++i].unicode(); term = RSQUARE; var_type = PROPERTY; } else if(unicode == LCURLY) { unicode = str_data[++i].unicode(); var_type = VAR; term = RCURLY; } else if(unicode == LPAREN) { unicode = str_data[++i].unicode(); var_type = ENVIRON; term = RPAREN; } while(1) { if(!(unicode & (0xFF<<8)) && unicode != DOT && unicode != UNDERSCORE && //unicode != SINGLEQUOTE && unicode != DOUBLEQUOTE && (unicode < 'a' || unicode > 'z') && (unicode < 'A' || unicode > 'Z') && (unicode < '0' || unicode > '9') && (!term || unicode != '/')) break; var.append(QChar(unicode)); if(++i == str_len) break; unicode = str_data[i].unicode(); // at this point, i points to either the 'term' or 'next' character (which is in unicode) } if(var_type == VAR && unicode == LPAREN) { var_type = FUNCTION; int depth = 0; while(1) { if(++i == str_len) break; unicode = str_data[i].unicode(); if(unicode == LPAREN) { depth++; } else if(unicode == RPAREN) { if(!depth) break; --depth; } args.append(QChar(unicode)); } if(++i < str_len) unicode = str_data[i].unicode(); else unicode = 0; // at this point i is pointing to the 'next' character (which is in unicode) // this might actually be a term character since you can do $${func()} } if(term) { if(unicode != term) { qmake_error_msg("Missing " + QString(term) + " terminator [found " + (unicode?QString(unicode):QString("end-of-line")) + "]"); if(ok) *ok = false; return QStringList(); } } else { // move the 'cursor' back to the last char of the thing we were looking at --i; } // since i never points to the 'next' character, there is no reason for this to be set unicode = 0; QStringList replacement; if(var_type == ENVIRON) { replacement = split_value_list(QString::fromLocal8Bit(qgetenv(var.toLatin1().constData()))); } else if(var_type == PROPERTY) { if(prop) replacement = split_value_list(prop->value(var)); } else if(var_type == FUNCTION) { replacement = doProjectExpand(var, args, place); } else if(var_type == VAR) { replacement = values(var, place); } if(!(replaced++) && start_var) current = str.left(start_var); if(!replacement.isEmpty()) { if(quote) { current += replacement.join(QString(Option::field_sep)); } else { current += replacement.takeFirst(); if(!replacement.isEmpty()) { if(!current.isEmpty()) ret.append(current); current = replacement.takeLast(); if(!replacement.isEmpty()) ret += replacement; } } } debug_msg(2, "Project Parser [var replace]: %s -> %s", str.toLatin1().constData(), var.toLatin1().constData(), replacement.join("::").toLatin1().constData()); } else { if(replaced) current.append("$"); } } if(quote && unicode == quote) { unicode = 0; quote = 0; } else if(unicode == SLASH) { bool escape = false; const char *symbols = "[]{}()$\\'\""; for(const char *s = symbols; *s; ++s) { if(str_data[i+1].unicode() == (ushort)*s) { i++; escape = true; if(!(replaced++)) current = str.left(start_var); current.append(str.at(i)); break; } } if(!escape && !backslashWarned) { backslashWarned = true; warn_msg(WarnDeprecated, "%s:%d: Unescaped backslashes are deprecated.", parser.file.toLatin1().constData(), parser.line_no); } if(escape || !replaced) unicode =0; } else if(!quote && (unicode == SINGLEQUOTE || unicode == DOUBLEQUOTE)) { quote = unicode; unicode = 0; if(!(replaced++) && i) current = str.left(i); } else if(!quote && (unicode == SPACE || unicode == TAB)) { unicode = 0; if(!current.isEmpty()) { ret.append(current); current.clear(); } } if(replaced && unicode) current.append(QChar(unicode)); } if(!replaced) ret = QStringList(str); else if(!current.isEmpty()) ret.append(current); //qDebug() << "REPLACE" << str << ret; if (quote) warn_msg(WarnDeprecated, "%s:%d: Unmatched quotes are deprecated.", parser.file.toLatin1().constData(), parser.line_no); return ret; } QStringList &QMakeProject::values(const QString &_var, QHash &place) { QString var = varMap(_var); if(var == QLatin1String("LITERAL_WHITESPACE")) { //a real space in a token) var = ".BUILTIN." + var; place[var] = QStringList(QLatin1String("\t")); } else if(var == QLatin1String("LITERAL_DOLLAR")) { //a real $ var = ".BUILTIN." + var; place[var] = QStringList(QLatin1String("$")); } else if(var == QLatin1String("LITERAL_HASH")) { //a real # var = ".BUILTIN." + var; place[var] = QStringList("#"); } else if(var == QLatin1String("OUT_PWD")) { //the out going dir var = ".BUILTIN." + var; place[var] = QStringList(Option::output_dir); } else if(var == QLatin1String("PWD") || //current working dir (of _FILE_) var == QLatin1String("IN_PWD")) { var = ".BUILTIN." + var; place[var] = QStringList(qmake_getpwd()); } else if(var == QLatin1String("DIR_SEPARATOR")) { validateModes(); var = ".BUILTIN." + var; place[var] = QStringList(Option::dir_sep); } else if(var == QLatin1String("DIRLIST_SEPARATOR")) { var = ".BUILTIN." + var; place[var] = QStringList(Option::dirlist_sep); } else if(var == QLatin1String("_LINE_")) { //parser line number var = ".BUILTIN." + var; place[var] = QStringList(QString::number(parser.line_no)); } else if(var == QLatin1String("_FILE_")) { //parser file var = ".BUILTIN." + var; place[var] = QStringList(parser.file); } else if(var == QLatin1String("_DATE_")) { //current date/time var = ".BUILTIN." + var; place[var] = QStringList(QDateTime::currentDateTime().toString()); } else if(var == QLatin1String("_PRO_FILE_")) { var = ".BUILTIN." + var; place[var] = QStringList(pfile); } else if(var == QLatin1String("_PRO_FILE_PWD_")) { var = ".BUILTIN." + var; place[var] = QStringList(pfile.isEmpty() ? qmake_getpwd() : QFileInfo(pfile).absolutePath()); } else if(var == QLatin1String("_QMAKE_CACHE_")) { var = ".BUILTIN." + var; if(Option::mkfile::do_cache) place[var] = QStringList(cachefile); } else if(var == QLatin1String("TEMPLATE")) { if(!Option::user_template.isEmpty()) { var = ".BUILTIN.USER." + var; place[var] = QStringList(Option::user_template); } else { QString orig_template, real_template; if(!place[var].isEmpty()) orig_template = place[var].first(); real_template = orig_template.isEmpty() ? "app" : orig_template; if(!Option::user_template_prefix.isEmpty() && !orig_template.startsWith(Option::user_template_prefix)) real_template.prepend(Option::user_template_prefix); if(real_template != orig_template) { var = ".BUILTIN." + var; place[var] = QStringList(real_template); } } } else if(var.startsWith(QLatin1String("QMAKE_HOST."))) { QString ret, type = var.mid(11); #if defined(Q_OS_WIN32) if(type == "os") { ret = "Windows"; } else if(type == "name") { DWORD name_length = 1024; wchar_t name[1024]; if (GetComputerName(name, &name_length)) ret = QString::fromWCharArray(name); } else if(type == "version" || type == "version_string") { QSysInfo::WinVersion ver = QSysInfo::WindowsVersion; if(type == "version") ret = QString::number(ver); else if(ver == QSysInfo::WV_Me) ret = "WinMe"; else if(ver == QSysInfo::WV_95) ret = "Win95"; else if(ver == QSysInfo::WV_98) ret = "Win98"; else if(ver == QSysInfo::WV_NT) ret = "WinNT"; else if(ver == QSysInfo::WV_2000) ret = "Win2000"; else if(ver == QSysInfo::WV_2000) ret = "Win2003"; else if(ver == QSysInfo::WV_XP) ret = "WinXP"; else if(ver == QSysInfo::WV_VISTA) ret = "WinVista"; else ret = "Unknown"; } else if(type == "arch") { SYSTEM_INFO info; GetSystemInfo(&info); switch(info.wProcessorArchitecture) { #ifdef PROCESSOR_ARCHITECTURE_AMD64 case PROCESSOR_ARCHITECTURE_AMD64: ret = "x86_64"; break; #endif case PROCESSOR_ARCHITECTURE_INTEL: ret = "x86"; break; case PROCESSOR_ARCHITECTURE_IA64: #ifdef PROCESSOR_ARCHITECTURE_IA32_ON_WIN64 case PROCESSOR_ARCHITECTURE_IA32_ON_WIN64: #endif ret = "IA64"; break; default: ret = "Unknown"; break; } } #elif defined(Q_OS_UNIX) struct utsname name; if(!uname(&name)) { if(type == "os") ret = name.sysname; else if(type == "name") ret = name.nodename; else if(type == "version") ret = name.release; else if(type == "version_string") ret = name.version; else if(type == "arch") ret = name.machine; } #endif var = ".BUILTIN.HOST." + type; place[var] = QStringList(ret); } else if (var == QLatin1String("QMAKE_DIR_SEP")) { if (place[var].isEmpty()) return values("DIR_SEPARATOR", place); } else if (var == QLatin1String("QMAKE_EXT_OBJ")) { if (place[var].isEmpty()) { var = ".BUILTIN." + var; place[var] = QStringList(Option::obj_ext); } } else if (var == QLatin1String("QMAKE_QMAKE")) { if (place[var].isEmpty()) place[var] = QStringList(Option::fixPathToTargetOS( !Option::qmake_abslocation.isEmpty() ? Option::qmake_abslocation : QLibraryInfo::rawLocation(QLibraryInfo::HostBinariesPath, QLibraryInfo::EffectivePaths) + "/qmake", false)); } #if defined(Q_OS_WIN32) && defined(Q_CC_MSVC) else if(var.startsWith(QLatin1String("QMAKE_TARGET."))) { QString ret, type = var.mid(13); if(type == "arch") { QString paths = QString::fromLocal8Bit(qgetenv("PATH")); QString vcBin64 = QString::fromLocal8Bit(qgetenv("VCINSTALLDIR")); if (!vcBin64.endsWith('\\')) vcBin64.append('\\'); vcBin64.append("bin\\amd64"); QString vcBinX86_64 = QString::fromLocal8Bit(qgetenv("VCINSTALLDIR")); if (!vcBinX86_64.endsWith('\\')) vcBinX86_64.append('\\'); vcBinX86_64.append("bin\\x86_amd64"); if(paths.contains(vcBin64,Qt::CaseInsensitive) || paths.contains(vcBinX86_64,Qt::CaseInsensitive)) ret = "x86_64"; else ret = "x86"; } place[var] = QStringList(ret); } #endif //qDebug("REPLACE [%s]->[%s]", qPrintable(var), qPrintable(place[var].join("::"))); return place[var]; } bool QMakeProject::isEmpty(const QString &v) { QHash::ConstIterator it = vars.constFind(varMap(v)); return it == vars.constEnd() || it->isEmpty(); } QT_END_NAMESPACE