/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include // expected-error-re@+1 {{change type of variable 'literal1' from constant character array ('const char{{ ?}}[4]') to OStringLiteral [loplugin:stringliteralvar]}} char const literal1[] = "foo"; OString f1() { // expected-note@+1 {{first passed into a 'rtl::OString' constructor here [loplugin:stringliteralvar]}} return literal1; } void f(OUString const&); void f2() { // expected-error-re@+1 {{change type of variable 'literal' from constant character array ('const char{{ ?}}[4]') to OUStringLiteral, and make it static [loplugin:stringliteralvar]}} char const literal[] = "foo"; // expected-note@+1 {{first passed into a 'rtl::OUString' constructor here [loplugin:stringliteralvar]}} f(literal); } struct S3 { // expected-error-re@+1 {{change type of variable 'literal' from constant character array ('const char16_t{{ ?}}[4]') to OUStringLiteral [loplugin:stringliteralvar]}} static constexpr char16_t literal[] = u"foo"; }; void f3() { // expected-note@+1 {{first passed into a 'rtl::OUString' constructor here [loplugin:stringliteralvar]}} f(S3::literal); } std::vector f4() { // expected-error-re@+1 {{change type of variable 'literal' from constant character array ('const char16_t{{ ?}}[4]') to OUStringLiteral [loplugin:stringliteralvar]}} static constexpr char16_t literal[] = u"foo"; // expected-note@+1 {{first passed into a 'rtl::OUString' constructor here [loplugin:stringliteralvar]}} return { literal }; } void f5() { // expected-error@+1 {{variable 'literal' of type 'const rtl::OUStringLiteral<4>' with automatic storage duration most likely needs to be static [loplugin:stringliteralvar]}} OUStringLiteral const literal = u"foo"; // expected-note@+1 {{first converted to 'rtl::OUString' here [loplugin:stringliteralvar]}} f(literal); } void f6() { // expected-error@+1 {{variable 'literal' of type 'const rtl::OUStringLiteral<4>' with automatic storage duration most likely needs to be static [loplugin:stringliteralvar]}} constexpr OUStringLiteral literal = u"foo"; // expected-note@+1 {{first converted to 'rtl::OUString' here [loplugin:stringliteralvar]}} f(literal); } void f7() { static constexpr OUStringLiteral const literal = u"foo"; f(literal); } void f8() { static constexpr OUStringLiteral const literal = u"foo"; // expected-error@+1 {{variable 'literal' of type 'const rtl::OUStringLiteral<4>' suspiciously used in a sizeof expression [loplugin:stringliteralvar]}} (void)sizeof literal; } void f9() { // expected-error-re@+1 {{change type of variable 'literal' from constant character array ('const sal_Unicode{{ ?}}[3]'{{( \(aka 'const char16_t\[3\]'\))?}}) to OUStringLiteral [loplugin:stringliteralvar]}} static sal_Unicode const literal[] = { 'f', 'o', 'o' }; // expected-note@+1 {{first passed into a 'rtl::OUString' constructor here [loplugin:stringliteralvar]}} f(OUString(literal, SAL_N_ELEMENTS(literal))); } void f10() { // expected-error-re@+1 {{change type of variable 'literal' from constant character array ('const sal_Unicode{{ ?}}[3]'{{( \(aka 'const char16_t\[3\]'\))?}}) to OUStringLiteral [loplugin:stringliteralvar]}} static sal_Unicode const literal[] = { 'f', 'o', 'o' }; // expected-note@+1 {{first passed into a 'rtl::OUString' constructor here [loplugin:stringliteralvar]}} f(OUString(literal, 3)); } void f11(int nStreamType) { // expected-error-re@+1 {{change type of variable 'sDocumentType' from constant character array ('const char{{ ?}}[4]') to OUStringLiteral, and make it static [loplugin:stringliteralvar]}} const char sDocumentType[] = "foo"; OUString sStreamType; switch (nStreamType) { case 1: // expected-note@+1 {{first assigned here [loplugin:stringliteralvar]}} sStreamType = sDocumentType; break; } (void)sStreamType; } extern sal_Unicode const extarr[1]; sal_Unicode init(); void f12() { // Suppress warnings if the array contains a malformed sequence of UTF-16 code units...: static sal_Unicode const arr1[] = { 0xD800 }; f(OUString(arr1, 1)); // ...Or potentially contains a malformed sequence of UTF-16 code units...: f(OUString(extarr, 1)); sal_Unicode const arr2[] = { init() }; f(OUString(arr2, 1)); // ...But generate a warning if the array contains a well-formed sequence of UTF-16 code units // containing surrogates: // expected-error-re@+1 {{change type of variable 'arr3' from constant character array ('const sal_Unicode{{ ?}}[2]'{{( \(aka 'const char16_t\[2\]'\))?}}) to OUStringLiteral [loplugin:stringliteralvar]}} static sal_Unicode const arr3[] = { 0xD800, 0xDC00 }; // expected-note-re@+1 {{first passed into a '{{(rtl::)?}}OUString' constructor here [loplugin:stringliteralvar]}} f(OUString(arr3, 2)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break: */