summaryrefslogtreecommitdiffstats
path: root/src/VBox/Runtime/testcase/tstIprtMiniString.cpp
diff options
context:
space:
mode:
Diffstat (limited to 'src/VBox/Runtime/testcase/tstIprtMiniString.cpp')
-rw-r--r--src/VBox/Runtime/testcase/tstIprtMiniString.cpp620
1 files changed, 620 insertions, 0 deletions
diff --git a/src/VBox/Runtime/testcase/tstIprtMiniString.cpp b/src/VBox/Runtime/testcase/tstIprtMiniString.cpp
new file mode 100644
index 00000000..99cb6500
--- /dev/null
+++ b/src/VBox/Runtime/testcase/tstIprtMiniString.cpp
@@ -0,0 +1,620 @@
+/* $Id: tstIprtMiniString.cpp $ */
+/** @file
+ * IPRT Testcase - RTCString.
+ */
+
+/*
+ * Copyright (C) 2006-2019 Oracle Corporation
+ *
+ * This file is part of VirtualBox Open Source Edition (OSE), as
+ * available from http://www.virtualbox.org. This file is free software;
+ * you can redistribute it and/or modify it under the terms of the GNU
+ * General Public License (GPL) as published by the Free Software
+ * Foundation, in version 2 as it comes in the "COPYING" file of the
+ * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
+ * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
+ *
+ * The contents of this file may alternatively be used under the terms
+ * of the Common Development and Distribution License Version 1.0
+ * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
+ * VirtualBox OSE distribution, in which case the provisions of the
+ * CDDL are applicable instead of those of the GPL.
+ *
+ * You may elect to license modified versions of this file under the
+ * terms and conditions of either the GPL or the CDDL or both.
+ */
+
+
+/*********************************************************************************************************************************
+* Header Files *
+*********************************************************************************************************************************/
+#include <iprt/cpp/ministring.h>
+
+#include <iprt/errcore.h>
+#include <iprt/mem.h>
+#include <iprt/string.h>
+#include <iprt/test.h>
+#include <iprt/uni.h>
+
+
+static void test1Hlp1(const char *pszExpect, const char *pszFormat, ...)
+{
+#if 0
+ va_list va;
+ va_start(va, pszFormat);
+ RTCString strTst(pszFormat, va);
+ va_end(va);
+ RTTESTI_CHECK_MSG(strTst.equals(pszExpect), ("strTst='%s' expected='%s'\n", strTst.c_str(), pszExpect));
+#else
+ RT_NOREF_PV(pszExpect);
+ RT_NOREF_PV(pszFormat);
+#endif
+}
+
+static void test1(RTTEST hTest)
+{
+ RTTestSub(hTest, "Basics");
+
+#define CHECK(expr) RTTESTI_CHECK(expr)
+#define CHECK_DUMP(expr, value) \
+ do { \
+ if (!(expr)) \
+ RTTestFailed(hTest, "%d: FAILED %s, got \"%s\"", __LINE__, #expr, value); \
+ } while (0)
+
+#define CHECK_DUMP_I(expr) \
+ do { \
+ if (!(expr)) \
+ RTTestFailed(hTest, "%d: FAILED %s, got \"%d\"", __LINE__, #expr, expr); \
+ } while (0)
+#define CHECK_EQUAL(Str, szExpect) \
+ do { \
+ if (!(Str).equals(szExpect)) \
+ RTTestIFailed("line %u: expected \"%s\" got \"%s\"", __LINE__, szExpect, (Str).c_str()); \
+ } while (0)
+#define CHECK_EQUAL_I(iRes, iExpect) \
+ do { \
+ if (iRes != iExpect) \
+ RTTestIFailed("line %u: expected \"%zd\" got \"%zd\"", __LINE__, iExpect, iRes); \
+ } while (0)
+
+ RTCString empty;
+ CHECK(empty.length() == 0);
+ CHECK(empty.capacity() == 0);
+
+ empty.reserve(1);
+ CHECK(empty.length() == 0);
+ CHECK(empty.capacity() == 1);
+ char *pszEmpty = empty.mutableRaw();
+ CHECK(pszEmpty != NULL);
+
+ RTCString sixbytes("12345");
+ CHECK(sixbytes.length() == 5);
+ CHECK(sixbytes.capacity() == 6);
+
+ sixbytes.append(RTCString("678"));
+ CHECK(sixbytes.length() == 8);
+ CHECK(sixbytes.capacity() >= 9);
+
+ sixbytes.append("9a");
+ CHECK(sixbytes.length() == 10);
+ CHECK(sixbytes.capacity() >= 11);
+
+ char *psz = sixbytes.mutableRaw();
+ // 123456789a
+ // ^
+ // 0123456
+ psz[6] = '\0';
+ sixbytes.jolt();
+ CHECK(sixbytes.length() == 6);
+ CHECK(sixbytes.capacity() == 7);
+
+ RTCString morebytes("tobereplaced");
+ morebytes = "newstring ";
+ morebytes.append(sixbytes);
+
+ CHECK_DUMP(morebytes == "newstring 123456", morebytes.c_str());
+
+ RTCString third(morebytes);
+ third.reserve(100 * 1024); // 100 KB
+ CHECK_DUMP(third == "newstring 123456", morebytes.c_str() );
+ CHECK(third.capacity() == 100 * 1024);
+ CHECK(third.length() == morebytes.length()); // must not have changed
+
+ RTCString copy1(morebytes);
+ RTCString copy2 = morebytes;
+ CHECK(copy1 == copy2);
+
+ copy1 = NULL;
+ CHECK(copy1.length() == 0);
+
+ copy1 = "";
+ CHECK(copy1.length() == 0);
+
+ CHECK(RTCString("abc") < RTCString("def"));
+ CHECK(RTCString("") < RTCString("def"));
+ CHECK(RTCString("abc") > RTCString(""));
+ CHECK(RTCString("abc") != RTCString("def"));
+ CHECK_DUMP_I(RTCString("def") > RTCString("abc"));
+ CHECK(RTCString("abc") == RTCString("abc"));
+ CHECK(RTCString("").compare("") == 0);
+ CHECK(RTCString("").compare(NULL) == 0);
+ CHECK(RTCString("").compare("a") < 0);
+ CHECK(RTCString("a").compare("") > 0);
+ CHECK(RTCString("a").compare(NULL) > 0);
+
+ CHECK(RTCString("abc") < "def");
+ CHECK(RTCString("abc") != "def");
+ CHECK_DUMP_I(RTCString("def") > "abc");
+ CHECK(RTCString("abc") == "abc");
+
+ CHECK(RTCString("abc").equals("abc"));
+ CHECK(!RTCString("abc").equals("def"));
+ CHECK(RTCString("abc").equalsIgnoreCase("Abc"));
+ CHECK(RTCString("abc").equalsIgnoreCase("ABc"));
+ CHECK(RTCString("abc").equalsIgnoreCase("ABC"));
+ CHECK(!RTCString("abc").equalsIgnoreCase("dBC"));
+ CHECK(RTCString("").equals(""));
+ CHECK(RTCString("").equals(NULL));
+ CHECK(!RTCString("").equals("a"));
+ CHECK(!RTCString("a").equals(""));
+ CHECK(!RTCString("a").equals(NULL));
+ CHECK(RTCString("").equalsIgnoreCase(""));
+ CHECK(RTCString("").equalsIgnoreCase(NULL));
+ CHECK(!RTCString("").equalsIgnoreCase("a"));
+ CHECK(!RTCString("a").equalsIgnoreCase(""));
+
+ copy2.setNull();
+ for (int i = 0; i < 100; ++i)
+ {
+ copy2.reserve(50); // should be ignored after 50 loops
+ copy2.append("1");
+ }
+ CHECK(copy2.length() == 100);
+
+ copy2.setNull();
+ for (int i = 0; i < 100; ++i)
+ {
+ copy2.reserve(50); // should be ignored after 50 loops
+ copy2.append('1');
+ }
+ CHECK(copy2.length() == 100);
+
+ /* printf */
+ RTCString StrFmt;
+ CHECK(StrFmt.printf("%s-%s-%d", "abc", "def", 42).equals("abc-def-42"));
+ test1Hlp1("abc-42-def", "%s-%d-%s", "abc", 42, "def");
+ test1Hlp1("", "");
+ test1Hlp1("1", "1");
+ test1Hlp1("foobar", "%s", "foobar");
+
+ /* substring constructors */
+ RTCString SubStr1("", (size_t)0);
+ CHECK_EQUAL(SubStr1, "");
+
+ RTCString SubStr2("abcdef", 2);
+ CHECK_EQUAL(SubStr2, "ab");
+
+ RTCString SubStr3("abcdef", 1);
+ CHECK_EQUAL(SubStr3, "a");
+
+ RTCString SubStr4("abcdef", 6);
+ CHECK_EQUAL(SubStr4, "abcdef");
+
+ RTCString SubStr5("abcdef", 7);
+ CHECK_EQUAL(SubStr5, "abcdef");
+
+
+ RTCString SubStrBase("abcdef");
+
+ RTCString SubStr10(SubStrBase, 0);
+ CHECK_EQUAL(SubStr10, "abcdef");
+
+ RTCString SubStr11(SubStrBase, 1);
+ CHECK_EQUAL(SubStr11, "bcdef");
+
+ RTCString SubStr12(SubStrBase, 1, 1);
+ CHECK_EQUAL(SubStr12, "b");
+
+ RTCString SubStr13(SubStrBase, 2, 3);
+ CHECK_EQUAL(SubStr13, "cde");
+
+ RTCString SubStr14(SubStrBase, 2, 4);
+ CHECK_EQUAL(SubStr14, "cdef");
+
+ RTCString SubStr15(SubStrBase, 2, 5);
+ CHECK_EQUAL(SubStr15, "cdef");
+
+ /* substr() and substrCP() functions */
+ RTCString strTest("");
+ CHECK_EQUAL(strTest.substr(0), "");
+ CHECK_EQUAL(strTest.substrCP(0), "");
+ CHECK_EQUAL(strTest.substr(1), "");
+ CHECK_EQUAL(strTest.substrCP(1), "");
+
+ /* now let's have some non-ASCII to chew on */
+ strTest = "abcdefßäbcdef";
+ // 13 codepoints, but 15 bytes (excluding null terminator);
+ // "ß" and "ä" consume two bytes each
+ CHECK_EQUAL(strTest.substr(0), strTest.c_str());
+ CHECK_EQUAL(strTest.substrCP(0), strTest.c_str());
+
+ CHECK_EQUAL(strTest.substr(2), "cdefßäbcdef");
+ CHECK_EQUAL(strTest.substrCP(2), "cdefßäbcdef");
+
+ CHECK_EQUAL(strTest.substr(2, 2), "cd");
+ CHECK_EQUAL(strTest.substrCP(2, 2), "cd");
+
+ CHECK_EQUAL(strTest.substr(6), "ßäbcdef");
+ CHECK_EQUAL(strTest.substrCP(6), "ßäbcdef");
+
+ CHECK_EQUAL(strTest.substr(6, 2), "ß"); // UTF-8 "ß" consumes two bytes
+ CHECK_EQUAL(strTest.substrCP(6, 1), "ß");
+
+ CHECK_EQUAL(strTest.substr(8), "äbcdef"); // UTF-8 "ß" consumes two bytes
+ CHECK_EQUAL(strTest.substrCP(7), "äbcdef");
+
+ CHECK_EQUAL(strTest.substr(8, 3), "äb"); // UTF-8 "ä" consumes two bytes
+ CHECK_EQUAL(strTest.substrCP(7, 2), "äb");
+
+ CHECK_EQUAL(strTest.substr(14, 1), "f");
+ CHECK_EQUAL(strTest.substrCP(12, 1), "f");
+
+ CHECK_EQUAL(strTest.substr(15, 1), "");
+ CHECK_EQUAL(strTest.substrCP(13, 1), "");
+
+ CHECK_EQUAL(strTest.substr(16, 1), "");
+ CHECK_EQUAL(strTest.substrCP(15, 1), "");
+
+ /* and check cooperation with find() */
+ size_t pos = strTest.find("ß");
+ CHECK_EQUAL(strTest.substr(pos), "ßäbcdef");
+
+ /* check find() */
+ CHECK_EQUAL_I(strTest.find("f"), 5);
+ CHECK_EQUAL_I(strTest.find("f", 0), 5);
+ CHECK_EQUAL_I(strTest.find("f", 3), 5);
+ CHECK_EQUAL_I(strTest.find("f", 6), 14);
+ CHECK_EQUAL_I(strTest.find("f", 9), 14);
+ CHECK_EQUAL_I(strTest.substr(pos).find("d"), 6);
+
+ /* split */
+ RTCList<RTCString> spList1 = RTCString("##abcdef##abcdef####abcdef##").split("##", RTCString::RemoveEmptyParts);
+ RTTESTI_CHECK(spList1.size() == 3);
+ for (size_t i = 0; i < spList1.size(); ++i)
+ RTTESTI_CHECK(spList1.at(i) == "abcdef");
+ RTCList<RTCString> spList2 = RTCString("##abcdef##abcdef####abcdef##").split("##", RTCString::KeepEmptyParts);
+ RTTESTI_CHECK_RETV(spList2.size() == 5);
+ RTTESTI_CHECK(spList2.at(0) == "");
+ RTTESTI_CHECK(spList2.at(1) == "abcdef");
+ RTTESTI_CHECK(spList2.at(2) == "abcdef");
+ RTTESTI_CHECK(spList2.at(3) == "");
+ RTTESTI_CHECK(spList2.at(4) == "abcdef");
+ RTCList<RTCString> spList3 = RTCString().split("##", RTCString::KeepEmptyParts);
+ RTTESTI_CHECK(spList3.size() == 0);
+ RTCList<RTCString> spList4 = RTCString().split("");
+ RTTESTI_CHECK(spList4.size() == 0);
+ RTCList<RTCString> spList5 = RTCString("abcdef").split("");
+ RTTESTI_CHECK_RETV(spList5.size() == 1);
+ RTTESTI_CHECK(spList5.at(0) == "abcdef");
+
+ /* join */
+ RTCList<RTCString> jnList;
+ strTest = RTCString::join(jnList);
+ RTTESTI_CHECK(strTest == "");
+ strTest = RTCString::join(jnList, "##");
+ RTTESTI_CHECK(strTest == "");
+
+ jnList.append("abcdef");
+ strTest = RTCString::join(jnList, "##");
+ RTTESTI_CHECK(strTest == "abcdef");
+
+ jnList.append("abcdef");
+ strTest = RTCString::join(jnList, ";");
+ RTTESTI_CHECK(strTest == "abcdef;abcdef");
+
+ for (size_t i = 0; i < 3; ++i)
+ jnList.append("abcdef");
+ strTest = RTCString::join(jnList);
+ RTTESTI_CHECK(strTest == "abcdefabcdefabcdefabcdefabcdef");
+ strTest = RTCString::join(jnList, "##");
+ RTTESTI_CHECK(strTest == "abcdef##abcdef##abcdef##abcdef##abcdef");
+
+ /* special constructor and assignment arguments */
+ RTCString StrCtor1("");
+ RTTESTI_CHECK(StrCtor1.isEmpty());
+ RTTESTI_CHECK(StrCtor1.length() == 0);
+
+ RTCString StrCtor2(NULL);
+ RTTESTI_CHECK(StrCtor2.isEmpty());
+ RTTESTI_CHECK(StrCtor2.length() == 0);
+
+ RTCString StrCtor1d(StrCtor1);
+ RTTESTI_CHECK(StrCtor1d.isEmpty());
+ RTTESTI_CHECK(StrCtor1d.length() == 0);
+
+ RTCString StrCtor2d(StrCtor2);
+ RTTESTI_CHECK(StrCtor2d.isEmpty());
+ RTTESTI_CHECK(StrCtor2d.length() == 0);
+
+ for (unsigned i = 0; i < 2; i++)
+ {
+ RTCString StrAssign;
+ if (i) StrAssign = "abcdef";
+ StrAssign = (char *)NULL;
+ RTTESTI_CHECK(StrAssign.isEmpty());
+ RTTESTI_CHECK(StrAssign.length() == 0);
+
+ if (i) StrAssign = "abcdef";
+ StrAssign = "";
+ RTTESTI_CHECK(StrAssign.isEmpty());
+ RTTESTI_CHECK(StrAssign.length() == 0);
+
+ if (i) StrAssign = "abcdef";
+ StrAssign = StrCtor1;
+ RTTESTI_CHECK(StrAssign.isEmpty());
+ RTTESTI_CHECK(StrAssign.length() == 0);
+
+ if (i) StrAssign = "abcdef";
+ StrAssign = StrCtor2;
+ RTTESTI_CHECK(StrAssign.isEmpty());
+ RTTESTI_CHECK(StrAssign.length() == 0);
+ }
+
+#undef CHECK
+#undef CHECK_DUMP
+#undef CHECK_DUMP_I
+#undef CHECK_EQUAL
+}
+
+
+static int mymemcmp(const char *psz1, const char *psz2, size_t cch)
+{
+ for (size_t off = 0; off < cch; off++)
+ if (psz1[off] != psz2[off])
+ {
+ RTTestIFailed("off=%#x psz1=%.*Rhxs psz2=%.*Rhxs\n", off,
+ RT_MIN(cch - off, 8), &psz1[off],
+ RT_MIN(cch - off, 8), &psz2[off]);
+ return psz1[off] > psz2[off] ? 1 : -1;
+ }
+ return 0;
+}
+
+#if 0
+/**
+ * Detects a few annoying unicode points with unstable case folding for UTF-8.
+ *
+ * Unicode 4.01, I think, introduces a few codepoints with lower/upper mappings
+ * that has a different length when encoded as UTF-8. This breaks some
+ * assumptions we used to make. Since it's just a handful codepoints, we'll
+ * detect them and ignore them here. The actual case folding functions in
+ * IPRT will of course deal with this in a more robust manner.
+ *
+ * @returns true if problematic, false if not.
+ * @param uc The codepoints.
+ */
+static bool isUnevenUtf8FoldingCp(RTUNICP uc)
+{
+ RTUNICP ucLower = RTUniCpToLower(uc);
+ RTUNICP ucUpper = RTUniCpToUpper(uc);
+ //return RTUniCpCalcUtf8Len(ucLower) != RTUniCpCalcUtf8Len(ucUpper);
+ return false;
+}
+#endif
+
+static void test2(RTTEST hTest)
+{
+ RTTestSub(hTest, "UTF-8 upper/lower encoding assumption");
+
+#define CHECK_EQUAL(str1, str2) \
+ do \
+ { \
+ RTTESTI_CHECK(strlen((str1).c_str()) == (str1).length()); \
+ RTTESTI_CHECK((str1).length() == (str2).length()); \
+ RTTESTI_CHECK(mymemcmp((str1).c_str(), (str2).c_str(), (str2).length() + 1) == 0); \
+ } while (0)
+
+ RTCString strTmp, strExpect;
+ char szDst[16];
+
+ /* Some simple ascii stuff. */
+ strTmp = "abcdefghijklmnopqrstuvwxyz0123456ABCDEFGHIJKLMNOPQRSTUVWXYZ;-+/\\";
+ strExpect = "ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456ABCDEFGHIJKLMNOPQRSTUVWXYZ;-+/\\";
+ strTmp.toUpper();
+ CHECK_EQUAL(strTmp, strExpect);
+
+ strTmp.toLower();
+ strExpect = "abcdefghijklmnopqrstuvwxyz0123456abcdefghijklmnopqrstuvwxyz;-+/\\";
+ CHECK_EQUAL(strTmp, strExpect);
+
+ strTmp = "abcdefghijklmnopqrstuvwxyz0123456ABCDEFGHIJKLMNOPQRSTUVWXYZ;-+/\\";
+ strTmp.toLower();
+ CHECK_EQUAL(strTmp, strExpect);
+
+ /* Collect all upper and lower case code points. */
+ RTCString strLower("");
+ strLower.reserve(_4M);
+
+ RTCString strUpper("");
+ strUpper.reserve(_4M);
+
+ for (RTUNICP uc = 1; uc <= 0x10fffd; uc++)
+ {
+ /* Unicode 4.01, I think, introduced a few codepoints with lower/upper mappings
+ that aren't up for roundtrips and which case folding has a different UTF-8
+ length. We'll just skip them here as there are very few:
+ - Dotless small i and dotless capital I folds into ASCII I and i.
+ - The small letter long s folds to ASCII S.
+ - Greek prosgegrammeni folds to iota, which is a letter with both upper
+ and lower case foldings of its own. */
+#if 0 /** @todo totally busted testcase, plz figure out how to fix. */
+ if ( uc == 0x131
+ || uc == 0x130
+ || uc == 0x17f
+ || uc == 0x1fbe
+ )
+ continue;
+
+ if (RTUniCpIsLower(uc))
+ {
+ RTTESTI_CHECK_MSG(uc < 0xd800 || (uc > 0xdfff && uc != 0xfffe && uc != 0xffff), ("%#x\n", uc));
+ strLower.appendCodePoint(uc);
+ }
+ if (RTUniCpIsUpper(uc))
+ {
+ RTTESTI_CHECK_MSG(uc < 0xd800 || (uc > 0xdfff && uc != 0xfffe && uc != 0xffff), ("%#x\n", uc));
+ strUpper.appendCodePoint(uc);
+ }
+#else
+ continue;
+#endif
+ }
+ RTTESTI_CHECK(strlen(strLower.c_str()) == strLower.length());
+ RTTESTI_CHECK(strlen(strUpper.c_str()) == strUpper.length());
+
+ /* Fold each code point in the lower case string and check that it encodes
+ into the same or less number of bytes. */
+ size_t cch = 0;
+ const char *pszCur = strLower.c_str();
+ RTCString strUpper2("");
+ strUpper2.reserve(strLower.length() + 64);
+ for (;;)
+ {
+ RTUNICP ucLower;
+ const char * const pszPrev = pszCur;
+ RTTESTI_CHECK_RC_BREAK(RTStrGetCpEx(&pszCur, &ucLower), VINF_SUCCESS);
+ size_t const cchSrc = pszCur - pszPrev;
+ if (!ucLower)
+ break;
+
+ RTUNICP const ucUpper = RTUniCpToUpper(ucLower);
+ const char *pszDstEnd = RTStrPutCp(szDst, ucUpper);
+ size_t const cchDst = pszDstEnd - &szDst[0];
+ RTTESTI_CHECK_MSG(cchSrc >= cchDst,
+ ("ucLower=%#x %u bytes; ucUpper=%#x %u bytes\n",
+ ucLower, cchSrc, ucUpper, cchDst));
+ cch += cchDst;
+ strUpper2.appendCodePoint(ucUpper);
+
+ /* roundtrip stability */
+ RTUNICP const ucUpper2 = RTUniCpToUpper(ucUpper);
+ RTTESTI_CHECK_MSG(ucUpper2 == ucUpper, ("ucUpper2=%#x ucUpper=%#x\n", ucUpper2, ucUpper));
+
+ RTUNICP const ucLower2 = RTUniCpToLower(ucUpper);
+ RTTESTI_CHECK_MSG(ucLower2 == ucLower, ("ucLower2=%#x ucLower=%#x\n", ucLower2, ucLower));
+ RTUNICP const ucUpper3 = RTUniCpToUpper(ucLower2);
+ RTTESTI_CHECK_MSG(ucUpper3 == ucUpper, ("ucUpper3=%#x ucUpper=%#x\n", ucUpper3, ucUpper));
+
+ pszDstEnd = RTStrPutCp(szDst, ucLower2);
+ size_t const cchLower2 = pszDstEnd - &szDst[0];
+ RTTESTI_CHECK_MSG(cchDst == cchLower2,
+ ("ucLower2=%#x %u bytes; ucUpper=%#x %u bytes; ucLower=%#x\n",
+ ucLower2, cchLower2, ucUpper, cchDst, ucLower));
+ }
+ RTTESTI_CHECK(strlen(strUpper2.c_str()) == strUpper2.length());
+ RTTESTI_CHECK_MSG(cch == strUpper2.length(), ("cch=%u length()=%u\n", cch, strUpper2.length()));
+
+ /* the toUpper method shall do the same thing. */
+ strTmp = strLower; CHECK_EQUAL(strTmp, strLower);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+
+ /* Ditto for the upper case string. */
+ cch = 0;
+ pszCur = strUpper.c_str();
+ RTCString strLower2("");
+ strLower2.reserve(strUpper.length() + 64);
+ for (;;)
+ {
+ RTUNICP ucUpper;
+ const char * const pszPrev = pszCur;
+ RTTESTI_CHECK_RC_BREAK(RTStrGetCpEx(&pszCur, &ucUpper), VINF_SUCCESS);
+ size_t const cchSrc = pszCur - pszPrev;
+ if (!ucUpper)
+ break;
+
+ RTUNICP const ucLower = RTUniCpToLower(ucUpper);
+ const char *pszDstEnd = RTStrPutCp(szDst, ucLower);
+ size_t const cchDst = pszDstEnd - &szDst[0];
+ RTTESTI_CHECK_MSG(cchSrc >= cchDst,
+ ("ucUpper=%#x %u bytes; ucLower=%#x %u bytes\n",
+ ucUpper, cchSrc, ucLower, cchDst));
+
+ cch += cchDst;
+ strLower2.appendCodePoint(ucLower);
+
+ /* roundtrip stability */
+ RTUNICP const ucLower2 = RTUniCpToLower(ucLower);
+ RTTESTI_CHECK_MSG(ucLower2 == ucLower, ("ucLower2=%#x ucLower=%#x\n", ucLower2, ucLower));
+
+ RTUNICP const ucUpper2 = RTUniCpToUpper(ucLower);
+ RTTESTI_CHECK_MSG(ucUpper2 == ucUpper, ("ucUpper2=%#x ucUpper=%#x\n", ucUpper2, ucUpper));
+ RTUNICP const ucLower3 = RTUniCpToLower(ucUpper2);
+ RTTESTI_CHECK_MSG(ucLower3 == ucLower, ("ucLower3=%#x ucLower=%#x\n", ucLower3, ucLower));
+
+ pszDstEnd = RTStrPutCp(szDst, ucUpper2);
+ size_t const cchUpper2 = pszDstEnd - &szDst[0];
+ RTTESTI_CHECK_MSG(cchDst == cchUpper2,
+ ("ucUpper2=%#x %u bytes; ucLower=%#x %u bytes\n",
+ ucUpper2, cchUpper2, ucLower, cchDst));
+ }
+ RTTESTI_CHECK(strlen(strLower2.c_str()) == strLower2.length());
+ RTTESTI_CHECK_MSG(cch == strLower2.length(), ("cch=%u length()=%u\n", cch, strLower2.length()));
+
+ strTmp = strUpper; CHECK_EQUAL(strTmp, strUpper);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+
+ /* Checks of folding stability when nothing shall change. */
+ strTmp = strUpper; CHECK_EQUAL(strTmp, strUpper);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper);
+
+ strTmp = strUpper2; CHECK_EQUAL(strTmp, strUpper2);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+
+ strTmp = strLower; CHECK_EQUAL(strTmp, strLower);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower);
+
+ strTmp = strLower2; CHECK_EQUAL(strTmp, strLower2);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+
+ /* Check folding stability for roundtrips. */
+ strTmp = strUpper; CHECK_EQUAL(strTmp, strUpper);
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+ strTmp.toUpper();
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+ strTmp.toUpper();
+ strTmp.toLower(); CHECK_EQUAL(strTmp, strLower2);
+
+ strTmp = strLower; CHECK_EQUAL(strTmp, strLower);
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+ strTmp.toLower();
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+ strTmp.toLower();
+ strTmp.toUpper(); CHECK_EQUAL(strTmp, strUpper2);
+}
+
+
+int main()
+{
+ RTTEST hTest;
+ RTEXITCODE rcExit = RTTestInitAndCreate("tstIprtMiniString", &hTest);
+ if (rcExit == RTEXITCODE_SUCCESS)
+ {
+ RTTestBanner(hTest);
+
+ test1(hTest);
+ test2(hTest);
+
+ rcExit = RTTestSummaryAndDestroy(hTest);
+ }
+ return rcExit;
+}
+