/* ****************************************************************************** * * Copyright (C) 2002-2006, International Business Machines * Corporation and others. All Rights Reserved. * ****************************************************************************** * file name: custrtst.c * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2002oct09 * created by: Markus W. Scherer * * Tests of ustring.h Unicode string API functions. */ #include "unicode/ustring.h" #include "unicode/ucnv.h" #include "unicode/uiter.h" #include "cintltst.h" #include <string.h> #define LENGTHOF(array) (sizeof(array)/sizeof((array)[0])) /* get the sign of an integer */ #define _SIGN(value) ((value)==0 ? 0 : ((int32_t)(value)>>31)|1) /* test setup --------------------------------------------------------------- */ static void setUpDataTable(void); static void TestStringCopy(void); static void TestStringFunctions(void); static void TestStringSearching(void); static void TestSurrogateSearching(void); static void TestUnescape(void); static void TestCountChar32(void); static void TestUCharIterator(void); static void TestUNormIterator(void); static void TestBadUNormIterator(void); void addUStringTest(TestNode** root); void addUStringTest(TestNode** root) { addTest(root, &TestStringCopy, "tsutil/custrtst/TestStringCopy"); addTest(root, &TestStringFunctions, "tsutil/custrtst/TestStringFunctions"); addTest(root, &TestStringSearching, "tsutil/custrtst/TestStringSearching"); addTest(root, &TestSurrogateSearching, "tsutil/custrtst/TestSurrogateSearching"); addTest(root, &TestUnescape, "tsutil/custrtst/TestUnescape"); addTest(root, &TestCountChar32, "tsutil/custrtst/TestCountChar32"); addTest(root, &TestUCharIterator, "tsutil/custrtst/TestUCharIterator"); addTest(root, &TestUNormIterator, "tsutil/custrtst/TestUNormIterator"); addTest(root, &TestBadUNormIterator, "tsutil/custrtst/TestBadUNormIterator"); } /* test data for TestStringFunctions ---------------------------------------- */ UChar*** dataTable = NULL; static const char* raw[3][4] = { /* First String */ { "English_", "French_", "Croatian_", "English_"}, /* Second String */ { "United States", "France", "Croatia", "Unites States"}, /* Concatenated string */ { "English_United States", "French_France", "Croatian_Croatia", "English_United States"} }; static void setUpDataTable() { int32_t i,j; if(dataTable == NULL) { dataTable = (UChar***)calloc(sizeof(UChar**),3); for (i = 0; i < 3; i++) { dataTable[i] = (UChar**)calloc(sizeof(UChar*),4); for (j = 0; j < 4; j++){ dataTable[i][j] = (UChar*) malloc(sizeof(UChar)*(strlen(raw[i][j])+1)); u_uastrcpy(dataTable[i][j],raw[i][j]); } } } } static void cleanUpDataTable() { int32_t i,j; if(dataTable != NULL) { for (i=0; i<3; i++) { for(j = 0; j<4; j++) { free(dataTable[i][j]); } free(dataTable[i]); } free(dataTable); } dataTable = NULL; } /*Tests for u_strcat(),u_strcmp(), u_strlen(), u_strcpy(),u_strncat(),u_strncmp(),u_strncpy, u_uastrcpy(),u_austrcpy(), u_uastrncpy(); */ static void TestStringFunctions() { int32_t i,j,k; UChar temp[512]; UChar nullTemp[512]; char test[512]; char tempOut[512]; setUpDataTable(); log_verbose("Testing u_strlen()\n"); if( u_strlen(dataTable[0][0])!= u_strlen(dataTable[0][3]) || u_strlen(dataTable[0][0]) == u_strlen(dataTable[0][2])) log_err("There is an error in u_strlen()"); log_verbose("Testing u_memcpy() and u_memcmp()\n"); for(i=0;i<3;++i) { for(j=0;j<4;++j) { log_verbose("Testing %s\n", u_austrcpy(tempOut, dataTable[i][j])); temp[0] = 0; temp[7] = 0xA4; /* Mark the end */ u_memcpy(temp,dataTable[i][j], 7); if(temp[7] != 0xA4) log_err("an error occured in u_memcpy()\n"); if(u_memcmp(temp, dataTable[i][j], 7)!=0) log_err("an error occured in u_memcpy() or u_memcmp()\n"); } } if(u_memcmp(dataTable[0][0], dataTable[1][1], 7)==0) log_err("an error occured in u_memcmp()\n"); log_verbose("Testing u_memset()\n"); nullTemp[0] = 0; nullTemp[7] = 0; u_memset(nullTemp, 0xa4, 7); for (i = 0; i < 7; i++) { if(nullTemp[i] != 0xa4) { log_err("an error occured in u_memset()\n"); } } if(nullTemp[7] != 0) { log_err("u_memset() went too far\n"); } u_memset(nullTemp, 0, 7); nullTemp[7] = 0xa4; temp[7] = 0; u_memcpy(temp,nullTemp, 7); if(u_memcmp(temp, nullTemp, 7)!=0 || temp[7]!=0) log_err("an error occured in u_memcpy() or u_memcmp()\n"); log_verbose("Testing u_memmove()\n"); for (i = 0; i < 7; i++) { temp[i] = (UChar)i; } u_memmove(temp + 1, temp, 7); if(temp[0] != 0) { log_err("an error occured in u_memmove()\n"); } for (i = 1; i <= 7; i++) { if(temp[i] != (i - 1)) { log_err("an error occured in u_memmove()\n"); } } log_verbose("Testing u_strcpy() and u_strcmp()\n"); for(i=0;i<3;++i) { for(j=0;j<4;++j) { log_verbose("Testing %s\n", u_austrcpy(tempOut, dataTable[i][j])); temp[0] = 0; u_strcpy(temp,dataTable[i][j]); if(u_strcmp(temp,dataTable[i][j])!=0) log_err("something threw an error in u_strcpy() or u_strcmp()\n"); } } if(u_strcmp(dataTable[0][0], dataTable[1][1])==0) log_err("an error occured in u_memcmp()\n"); log_verbose("testing u_strcat()\n"); i=0; for(j=0; j<2;++j) { u_uastrcpy(temp, ""); u_strcpy(temp,dataTable[i][j]); u_strcat(temp,dataTable[i+1][j]); if(u_strcmp(temp,dataTable[i+2][j])!=0) log_err("something threw an error in u_strcat()\n"); } log_verbose("Testing u_strncmp()\n"); for(i=0,j=0;j<4; ++j) { k=u_strlen(dataTable[i][j]); if(u_strncmp(dataTable[i][j],dataTable[i+2][j],k)!=0) log_err("Something threw an error in u_strncmp\n"); } if(u_strncmp(dataTable[0][0], dataTable[1][1], 7)==0) log_err("an error occured in u_memcmp()\n"); log_verbose("Testing u_strncat\n"); for(i=0,j=0;j<4; ++j) { k=u_strlen(dataTable[i][j]); u_uastrcpy(temp,""); if(u_strcmp(u_strncat(temp,dataTable[i+2][j],k),dataTable[i][j])!=0) log_err("something threw an error in u_strncat or u_uastrcpy()\n"); } log_verbose("Testing u_strncpy() and u_uastrcpy()\n"); for(i=2,j=0;j<4; ++j) { k=u_strlen(dataTable[i][j]); u_strncpy(temp, dataTable[i][j],k); temp[k] = 0xa4; if(u_strncmp(temp, dataTable[i][j],k)!=0) log_err("something threw an error in u_strncpy()\n"); if(temp[k] != 0xa4) log_err("something threw an error in u_strncpy()\n"); u_memset(temp, 0x3F, (sizeof(temp) / sizeof(UChar)) - 1); u_uastrncpy(temp, raw[i][j], k-1); if(u_strncmp(temp, dataTable[i][j],k-1)!=0) log_err("something threw an error in u_uastrncpy(k-1)\n"); if(temp[k-1] != 0x3F) log_err("something threw an error in u_uastrncpy(k-1)\n"); u_memset(temp, 0x3F, (sizeof(temp) / sizeof(UChar)) - 1); u_uastrncpy(temp, raw[i][j], k+1); if(u_strcmp(temp, dataTable[i][j])!=0) log_err("something threw an error in u_uastrncpy(k+1)\n"); if(temp[k] != 0) log_err("something threw an error in u_uastrncpy(k+1)\n"); u_memset(temp, 0x3F, (sizeof(temp) / sizeof(UChar)) - 1); u_uastrncpy(temp, raw[i][j], k); if(u_strncmp(temp, dataTable[i][j], k)!=0) log_err("something threw an error in u_uastrncpy(k)\n"); if(temp[k] != 0x3F) log_err("something threw an error in u_uastrncpy(k)\n"); } log_verbose("Testing u_strchr() and u_memchr()\n"); for(i=2,j=0;j<4;j++) { UChar saveVal = dataTable[i][j][0]; UChar *findPtr = u_strchr(dataTable[i][j], 0x005F); int32_t dataSize = (int32_t)(u_strlen(dataTable[i][j]) + 1); log_verbose("%s ", u_austrcpy(tempOut, findPtr)); if (findPtr == NULL || *findPtr != 0x005F) { log_err("u_strchr can't find '_' in the string\n"); } findPtr = u_strchr32(dataTable[i][j], 0x005F); if (findPtr == NULL || *findPtr != 0x005F) { log_err("u_strchr32 can't find '_' in the string\n"); } findPtr = u_strchr(dataTable[i][j], 0); if (findPtr != (&(dataTable[i][j][dataSize - 1]))) { log_err("u_strchr can't find NULL in the string\n"); } findPtr = u_strchr32(dataTable[i][j], 0); if (findPtr != (&(dataTable[i][j][dataSize - 1]))) { log_err("u_strchr32 can't find NULL in the string\n"); } findPtr = u_memchr(dataTable[i][j], 0, dataSize); if (findPtr != (&(dataTable[i][j][dataSize - 1]))) { log_err("u_memchr can't find NULL in the string\n"); } findPtr = u_memchr32(dataTable[i][j], 0, dataSize); if (findPtr != (&(dataTable[i][j][dataSize - 1]))) { log_err("u_memchr32 can't find NULL in the string\n"); } dataTable[i][j][0] = 0; /* Make sure we skip over the NULL termination */ findPtr = u_memchr(dataTable[i][j], 0x005F, dataSize); if (findPtr == NULL || *findPtr != 0x005F) { log_err("u_memchr can't find '_' in the string\n"); } findPtr = u_memchr32(dataTable[i][j], 0x005F, dataSize); if (findPtr == NULL || *findPtr != 0x005F) { log_err("u_memchr32 can't find '_' in the string\n"); } findPtr = u_memchr32(dataTable[i][j], 0xFFFD, dataSize); if (findPtr != NULL) { log_err("Should have found NULL when the character is not there.\n"); } dataTable[i][j][0] = saveVal; /* Put it back for the other tests */ } /* * test that u_strchr32() * does not find surrogate code points when they are part of matched pairs * (= part of supplementary code points) * Jitterbug 1542 */ { static const UChar s[]={ /* 0 1 2 3 4 5 6 7 8 9 */ 0x0061, 0xd841, 0xdc02, 0xd841, 0x0062, 0xdc02, 0xd841, 0xdc02, 0x0063, 0 }; if(u_strchr32(s, 0xd841)!=(s+3) || u_strchr32(s, 0xdc02)!=(s+5)) { log_err("error: u_strchr32(surrogate) finds a partial supplementary code point\n"); } if(u_memchr32(s, 0xd841, 9)!=(s+3) || u_memchr32(s, 0xdc02, 9)!=(s+5)) { log_err("error: u_memchr32(surrogate) finds a partial supplementary code point\n"); } } log_verbose("Testing u_austrcpy()"); u_austrcpy(test,dataTable[0][0]); if(strcmp(test,raw[0][0])!=0) log_err("There is an error in u_austrcpy()"); log_verbose("Testing u_strtok_r()"); { const char tokString[] = " , 1 2 3 AHHHHH! 5.5 6 7 , 8\n"; const char *tokens[] = {",", "1", "2", "3", "AHHHHH!", "5.5", "6", "7", "8\n"}; UChar delimBuf[sizeof(test)]; UChar currTokenBuf[sizeof(tokString)]; UChar *state; uint32_t currToken = 0; UChar *ptr; u_uastrcpy(temp, tokString); u_uastrcpy(delimBuf, " "); ptr = u_strtok_r(temp, delimBuf, &state); u_uastrcpy(delimBuf, " ,"); while (ptr != NULL) { u_uastrcpy(currTokenBuf, tokens[currToken]); if (u_strcmp(ptr, currTokenBuf) != 0) { log_err("u_strtok_r mismatch at %d. Got: %s, Expected: %s\n", currToken, ptr, tokens[currToken]); } ptr = u_strtok_r(NULL, delimBuf, &state); currToken++; } if (currToken != sizeof(tokens)/sizeof(tokens[0])) { log_err("Didn't get correct number of tokens\n"); } state = delimBuf; /* Give it an "invalid" saveState */ u_uastrcpy(currTokenBuf, ""); if (u_strtok_r(currTokenBuf, delimBuf, &state) != NULL) { log_err("Didn't get NULL for empty string\n"); } if (state != NULL) { log_err("State should be NULL for empty string\n"); } state = delimBuf; /* Give it an "invalid" saveState */ u_uastrcpy(currTokenBuf, ", ,"); if (u_strtok_r(currTokenBuf, delimBuf, &state) != NULL) { log_err("Didn't get NULL for a string of delimiters\n"); } if (state != NULL) { log_err("State should be NULL for a string of delimiters\n"); } state = delimBuf; /* Give it an "invalid" saveState */ u_uastrcpy(currTokenBuf, "q, ,"); if (u_strtok_r(currTokenBuf, delimBuf, &state) == NULL) { log_err("Got NULL for a string that does not begin with delimiters\n"); } if (u_strtok_r(NULL, delimBuf, &state) != NULL) { log_err("Didn't get NULL for a string that ends in delimiters\n"); } if (state != NULL) { log_err("State should be NULL for empty string\n"); } state = delimBuf; /* Give it an "invalid" saveState */ u_uastrcpy(currTokenBuf, tokString); u_uastrcpy(temp, tokString); u_uastrcpy(delimBuf, "q"); /* Give it a delimiter that it can't find. */ ptr = u_strtok_r(currTokenBuf, delimBuf, &state); if (ptr == NULL || u_strcmp(ptr, temp) != 0) { log_err("Should have recieved the same string when there are no delimiters\n"); } if (u_strtok_r(NULL, delimBuf, &state) != NULL) { log_err("Should not have found another token in a one token string\n"); } } /* test u_strcmpCodePointOrder() */ { /* these strings are in ascending order */ static const UChar strings[][4]={ { 0x61, 0 }, /* U+0061 */ { 0x20ac, 0xd801, 0 }, /* U+20ac U+d801 */ { 0x20ac, 0xd800, 0xdc00, 0 }, /* U+20ac U+10000 */ { 0xd800, 0 }, /* U+d800 */ { 0xd800, 0xff61, 0 }, /* U+d800 U+ff61 */ { 0xdfff, 0 }, /* U+dfff */ { 0xff61, 0xdfff, 0 }, /* U+ff61 U+dfff */ { 0xff61, 0xd800, 0xdc02, 0 }, /* U+ff61 U+10002 */ { 0xd800, 0xdc02, 0 }, /* U+10002 */ { 0xd84d, 0xdc56, 0 } /* U+23456 */ }; UCharIterator iter1, iter2; int32_t len1, len2, r1, r2; for(i=0; i<(sizeof(strings)/sizeof(strings[0])-1); ++i) { if(u_strcmpCodePointOrder(strings[i], strings[i+1])>=0) { log_err("error: u_strcmpCodePointOrder() fails for string %d and the following one\n", i); } if(u_strncmpCodePointOrder(strings[i], strings[i+1], 10)>=0) { log_err("error: u_strncmpCodePointOrder() fails for string %d and the following one\n", i); } /* There are at least 2 UChars in each string - verify that strncmp()==memcmp(). */ if(u_strncmpCodePointOrder(strings[i], strings[i+1], 2)!=u_memcmpCodePointOrder(strings[i], strings[i+1], 2)) { log_err("error: u_strncmpCodePointOrder(2)!=u_memcmpCodePointOrder(2) for string %d and the following one\n", i); } /* test u_strCompare(TRUE) */ len1=u_strlen(strings[i]); len2=u_strlen(strings[i+1]); if( u_strCompare(strings[i], -1, strings[i+1], -1, TRUE)>=0 || u_strCompare(strings[i], -1, strings[i+1], len2, TRUE)>=0 || u_strCompare(strings[i], len1, strings[i+1], -1, TRUE)>=0 || u_strCompare(strings[i], len1, strings[i+1], len2, TRUE)>=0 ) { log_err("error: u_strCompare(code point order) fails for string %d and the following one\n", i); } /* test u_strCompare(FALSE) */ r1=u_strCompare(strings[i], -1, strings[i+1], -1, FALSE); r2=u_strcmp(strings[i], strings[i+1]); if(_SIGN(r1)!=_SIGN(r2)) { log_err("error: u_strCompare(code unit order)!=u_strcmp() for string %d and the following one\n", i); } /* test u_strCompareIter() */ uiter_setString(&iter1, strings[i], len1); uiter_setString(&iter2, strings[i+1], len2); if(u_strCompareIter(&iter1, &iter2, TRUE)>=0) { log_err("error: u_strCompareIter(code point order) fails for string %d and the following one\n", i); } r1=u_strCompareIter(&iter1, &iter2, FALSE); if(_SIGN(r1)!=_SIGN(u_strcmp(strings[i], strings[i+1]))) { log_err("error: u_strCompareIter(code unit order)!=u_strcmp() for string %d and the following one\n", i); } } } cleanUpDataTable(); } static void TestStringSearching() { const UChar testString[] = {0x0061, 0x0062, 0x0063, 0x0064, 0x0064, 0x0061, 0}; const UChar testSurrogateString[] = {0xdbff, 0x0061, 0x0062, 0xdbff, 0xdfff, 0x0063, 0x0064, 0x0064, 0xdbff, 0xdfff, 0xdb00, 0xdf00, 0x0061, 0}; const UChar surrMatchSet1[] = {0xdbff, 0xdfff, 0}; const UChar surrMatchSet2[] = {0x0061, 0x0062, 0xdbff, 0xdfff, 0}; const UChar surrMatchSet3[] = {0xdb00, 0xdf00, 0xdbff, 0xdfff, 0}; const UChar surrMatchSet4[] = {0x0000}; const UChar surrMatchSetBad[] = {0xdbff, 0x0061, 0}; const UChar surrMatchSetBad2[] = {0x0061, 0xdbff, 0}; const UChar surrMatchSetBad3[] = {0xdbff, 0x0061, 0x0062, 0xdbff, 0xdfff, 0}; /* has partial surrogate */ const UChar empty[] = { 0 }, a[] = { 0x61, 0 }, ab[] = { 0x61, 0x62, 0 }, ba[] = { 0x62, 0x61, 0 }, abcd[] = { 0x61, 0x62, 0x63, 0x64, 0 }, cd[] = { 0x63, 0x64, 0 }, dc[] = { 0x64, 0x63, 0 }, cdh[] = { 0x63, 0x64, 0x68, 0 }, f[] = { 0x66, 0 }, fg[] = { 0x66, 0x67, 0 }, gf[] = { 0x67, 0x66, 0 }; log_verbose("Testing u_strpbrk()"); if (u_strpbrk(testString, a) != &testString[0]) { log_err("u_strpbrk couldn't find first letter a.\n"); } if (u_strpbrk(testString, dc) != &testString[2]) { log_err("u_strpbrk couldn't find d or c.\n"); } if (u_strpbrk(testString, cd) != &testString[2]) { log_err("u_strpbrk couldn't find c or d.\n"); } if (u_strpbrk(testString, cdh) != &testString[2]) { log_err("u_strpbrk couldn't find c, d or h.\n"); } if (u_strpbrk(testString, f) != NULL) { log_err("u_strpbrk didn't return NULL for \"f\".\n"); } if (u_strpbrk(testString, fg) != NULL) { log_err("u_strpbrk didn't return NULL for \"fg\".\n"); } if (u_strpbrk(testString, gf) != NULL) { log_err("u_strpbrk didn't return NULL for \"gf\".\n"); } if (u_strpbrk(testString, empty) != NULL) { log_err("u_strpbrk didn't return NULL for \"\".\n"); } log_verbose("Testing u_strpbrk() with surrogates"); if (u_strpbrk(testSurrogateString, a) != &testSurrogateString[1]) { log_err("u_strpbrk couldn't find first letter a.\n"); } if (u_strpbrk(testSurrogateString, dc) != &testSurrogateString[5]) { log_err("u_strpbrk couldn't find d or c.\n"); } if (u_strpbrk(testSurrogateString, cd) != &testSurrogateString[5]) { log_err("u_strpbrk couldn't find c or d.\n"); } if (u_strpbrk(testSurrogateString, cdh) != &testSurrogateString[5]) { log_err("u_strpbrk couldn't find c, d or h.\n"); } if (u_strpbrk(testSurrogateString, f) != NULL) { log_err("u_strpbrk didn't return NULL for \"f\".\n"); } if (u_strpbrk(testSurrogateString, fg) != NULL) { log_err("u_strpbrk didn't return NULL for \"fg\".\n"); } if (u_strpbrk(testSurrogateString, gf) != NULL) { log_err("u_strpbrk didn't return NULL for \"gf\".\n"); } if (u_strpbrk(testSurrogateString, surrMatchSet1) != &testSurrogateString[3]) { log_err("u_strpbrk couldn't find \"0xdbff, 0xdfff\".\n"); } if (u_strpbrk(testSurrogateString, surrMatchSet2) != &testSurrogateString[1]) { log_err("u_strpbrk couldn't find \"0xdbff, a, b, 0xdbff, 0xdfff\".\n"); } if (u_strpbrk(testSurrogateString, surrMatchSet3) != &testSurrogateString[3]) { log_err("u_strpbrk couldn't find \"0xdb00, 0xdf00, 0xdbff, 0xdfff\".\n"); } if (u_strpbrk(testSurrogateString, surrMatchSet4) != NULL) { log_err("u_strpbrk should have returned NULL for empty string.\n"); } if (u_strpbrk(testSurrogateString, surrMatchSetBad) != &testSurrogateString[0]) { log_err("u_strpbrk should have found bad surrogate.\n"); } log_verbose("Testing u_strcspn()"); if (u_strcspn(testString, a) != 0) { log_err("u_strcspn couldn't find first letter a.\n"); } if (u_strcspn(testString, dc) != 2) { log_err("u_strcspn couldn't find d or c.\n"); } if (u_strcspn(testString, cd) != 2) { log_err("u_strcspn couldn't find c or d.\n"); } if (u_strcspn(testString, cdh) != 2) { log_err("u_strcspn couldn't find c, d or h.\n"); } if (u_strcspn(testString, f) != u_strlen(testString)) { log_err("u_strcspn didn't return NULL for \"f\".\n"); } if (u_strcspn(testString, fg) != u_strlen(testString)) { log_err("u_strcspn didn't return NULL for \"fg\".\n"); } if (u_strcspn(testString, gf) != u_strlen(testString)) { log_err("u_strcspn didn't return NULL for \"gf\".\n"); } log_verbose("Testing u_strcspn() with surrogates"); if (u_strcspn(testSurrogateString, a) != 1) { log_err("u_strcspn couldn't find first letter a.\n"); } if (u_strcspn(testSurrogateString, dc) != 5) { log_err("u_strcspn couldn't find d or c.\n"); } if (u_strcspn(testSurrogateString, cd) != 5) { log_err("u_strcspn couldn't find c or d.\n"); } if (u_strcspn(testSurrogateString, cdh) != 5) { log_err("u_strcspn couldn't find c, d or h.\n"); } if (u_strcspn(testSurrogateString, f) != u_strlen(testSurrogateString)) { log_err("u_strcspn didn't return NULL for \"f\".\n"); } if (u_strcspn(testSurrogateString, fg) != u_strlen(testSurrogateString)) { log_err("u_strcspn didn't return NULL for \"fg\".\n"); } if (u_strcspn(testSurrogateString, gf) != u_strlen(testSurrogateString)) { log_err("u_strcspn didn't return NULL for \"gf\".\n"); } if (u_strcspn(testSurrogateString, surrMatchSet1) != 3) { log_err("u_strcspn couldn't find \"0xdbff, 0xdfff\".\n"); } if (u_strcspn(testSurrogateString, surrMatchSet2) != 1) { log_err("u_strcspn couldn't find \"a, b, 0xdbff, 0xdfff\".\n"); } if (u_strcspn(testSurrogateString, surrMatchSet3) != 3) { log_err("u_strcspn couldn't find \"0xdb00, 0xdf00, 0xdbff, 0xdfff\".\n"); } if (u_strcspn(testSurrogateString, surrMatchSet4) != u_strlen(testSurrogateString)) { log_err("u_strcspn should have returned strlen for empty string.\n"); } log_verbose("Testing u_strspn()"); if (u_strspn(testString, a) != 1) { log_err("u_strspn couldn't skip first letter a.\n"); } if (u_strspn(testString, ab) != 2) { log_err("u_strspn couldn't skip a or b.\n"); } if (u_strspn(testString, ba) != 2) { log_err("u_strspn couldn't skip a or b.\n"); } if (u_strspn(testString, f) != 0) { log_err("u_strspn didn't return 0 for \"f\".\n"); } if (u_strspn(testString, dc) != 0) { log_err("u_strspn couldn't find first letter a (skip d or c).\n"); } if (u_strspn(testString, abcd) != u_strlen(testString)) { log_err("u_strspn couldn't skip over the whole string.\n"); } if (u_strspn(testString, empty) != 0) { log_err("u_strspn should have returned 0 for empty string.\n"); } log_verbose("Testing u_strspn() with surrogates"); if (u_strspn(testSurrogateString, surrMatchSetBad) != 2) { log_err("u_strspn couldn't skip 0xdbff or a.\n"); } if (u_strspn(testSurrogateString, surrMatchSetBad2) != 2) { log_err("u_strspn couldn't skip 0xdbff or a.\n"); } if (u_strspn(testSurrogateString, f) != 0) { log_err("u_strspn couldn't skip d or c (skip first letter).\n"); } if (u_strspn(testSurrogateString, dc) != 0) { log_err("u_strspn couldn't skip d or c (skip first letter).\n"); } if (u_strspn(testSurrogateString, cd) != 0) { log_err("u_strspn couldn't skip d or c (skip first letter).\n"); } if (u_strspn(testSurrogateString, testSurrogateString) != u_strlen(testSurrogateString)) { log_err("u_strspn couldn't skip whole string.\n"); } if (u_strspn(testSurrogateString, surrMatchSet1) != 0) { log_err("u_strspn couldn't skip \"0xdbff, 0xdfff\" (get first letter).\n"); } if (u_strspn(testSurrogateString, surrMatchSetBad3) != 5) { log_err("u_strspn couldn't skip \"0xdbff, a, b, 0xdbff, 0xdfff\".\n"); } if (u_strspn(testSurrogateString, surrMatchSet4) != 0) { log_err("u_strspn should have returned 0 for empty string.\n"); } } /* * All binary Unicode string searches should behave the same for equivalent input. * See Jitterbug 2145. * There are some new functions, too - just test them all. */ static void TestSurrogateSearching() { static const UChar s[]={ /* 0 1 2 3 4 5 6 7 8 9 10 11 */ 0x61, 0xd801, 0xdc02, 0x61, 0xdc02, 0x61, 0xd801, 0x61, 0xd801, 0xdc02, 0x61, 0 }, sub_a[]={ 0x61, 0 }, sub_b[]={ 0x62, 0 }, sub_lead[]={ 0xd801, 0 }, sub_trail[]={ 0xdc02, 0 }, sub_supp[]={ 0xd801, 0xdc02, 0 }, sub_supp2[]={ 0xd801, 0xdc03, 0 }, sub_a_lead[]={ 0x61, 0xd801, 0 }, sub_trail_a[]={ 0xdc02, 0x61, 0 }, sub_aba[]={ 0x61, 0x62, 0x61, 0 }; static const UChar a=0x61, b=0x62, lead=0xd801, trail=0xdc02, nul=0; static const UChar32 supp=0x10402, supp2=0x10403, ill=0x123456; const UChar *first, *last; /* search for NUL code point: find end of string */ first=s+u_strlen(s); if( first!=u_strchr(s, nul) || first!=u_strchr32(s, nul) || first!=u_memchr(s, nul, LENGTHOF(s)) || first!=u_memchr32(s, nul, LENGTHOF(s)) || first!=u_strrchr(s, nul) || first!=u_strrchr32(s, nul) || first!=u_memrchr(s, nul, LENGTHOF(s)) || first!=u_memrchr32(s, nul, LENGTHOF(s)) ) { log_err("error: one of the u_str[|mem][r]chr[32](s, nul) does not find the terminator of s\n"); } /* search for empty substring: find beginning of string */ if( s!=u_strstr(s, &nul) || s!=u_strFindFirst(s, -1, &nul, -1) || s!=u_strFindFirst(s, -1, &nul, 0) || s!=u_strFindFirst(s, LENGTHOF(s), &nul, -1) || s!=u_strFindFirst(s, LENGTHOF(s), &nul, 0) || s!=u_strrstr(s, &nul) || s!=u_strFindLast(s, -1, &nul, -1) || s!=u_strFindLast(s, -1, &nul, 0) || s!=u_strFindLast(s, LENGTHOF(s), &nul, -1) || s!=u_strFindLast(s, LENGTHOF(s), &nul, 0) ) { log_err("error: one of the u_str[str etc](s, \"\") does not find s itself\n"); } /* find 'a' in s[1..10[ */ first=s+3; last=s+7; if( first!=u_strchr(s+1, a) || first!=u_strchr32(s+1, a) || first!=u_memchr(s+1, a, 9) || first!=u_memchr32(s+1, a, 9) || first!=u_strstr(s+1, sub_a) || first!=u_strFindFirst(s+1, -1, sub_a, -1) || first!=u_strFindFirst(s+1, -1, &a, 1) || first!=u_strFindFirst(s+1, 9, sub_a, -1) || first!=u_strFindFirst(s+1, 9, &a, 1) || (s+10)!=u_strrchr(s+1, a) || (s+10)!=u_strrchr32(s+1, a) || last!=u_memrchr(s+1, a, 9) || last!=u_memrchr32(s+1, a, 9) || (s+10)!=u_strrstr(s+1, sub_a) || (s+10)!=u_strFindLast(s+1, -1, sub_a, -1) || (s+10)!=u_strFindLast(s+1, -1, &a, 1) || last!=u_strFindLast(s+1, 9, sub_a, -1) || last!=u_strFindLast(s+1, 9, &a, 1) ) { log_err("error: one of the u_str[chr etc]('a') does not find the correct place\n"); } /* do not find 'b' in s[1..10[ */ if( NULL!=u_strchr(s+1, b) || NULL!=u_strchr32(s+1, b) || NULL!=u_memchr(s+1, b, 9) || NULL!=u_memchr32(s+1, b, 9) || NULL!=u_strstr(s+1, sub_b) || NULL!=u_strFindFirst(s+1, -1, sub_b, -1) || NULL!=u_strFindFirst(s+1, -1, &b, 1) || NULL!=u_strFindFirst(s+1, 9, sub_b, -1) || NULL!=u_strFindFirst(s+1, 9, &b, 1) || NULL!=u_strrchr(s+1, b) || NULL!=u_strrchr32(s+1, b) || NULL!=u_memrchr(s+1, b, 9) || NULL!=u_memrchr32(s+1, b, 9) || NULL!=u_strrstr(s+1, sub_b) || NULL!=u_strFindLast(s+1, -1, sub_b, -1) || NULL!=u_strFindLast(s+1, -1, &b, 1) || NULL!=u_strFindLast(s+1, 9, sub_b, -1) || NULL!=u_strFindLast(s+1, 9, &b, 1) ) { log_err("error: one of the u_str[chr etc]('b') incorrectly finds something\n"); } /* do not find a non-code point in s[1..10[ */ if( NULL!=u_strchr32(s+1, ill) || NULL!=u_memchr32(s+1, ill, 9) || NULL!=u_strrchr32(s+1, ill) || NULL!=u_memrchr32(s+1, ill, 9) ) { log_err("error: one of the u_str[chr etc](illegal code point) incorrectly finds something\n"); } /* find U+d801 in s[1..10[ */ first=s+6; if( first!=u_strchr(s+1, lead) || first!=u_strchr32(s+1, lead) || first!=u_memchr(s+1, lead, 9) || first!=u_memchr32(s+1, lead, 9) || first!=u_strstr(s+1, sub_lead) || first!=u_strFindFirst(s+1, -1, sub_lead, -1) || first!=u_strFindFirst(s+1, -1, &lead, 1) || first!=u_strFindFirst(s+1, 9, sub_lead, -1) || first!=u_strFindFirst(s+1, 9, &lead, 1) || first!=u_strrchr(s+1, lead) || first!=u_strrchr32(s+1, lead) || first!=u_memrchr(s+1, lead, 9) || first!=u_memrchr32(s+1, lead, 9) || first!=u_strrstr(s+1, sub_lead) || first!=u_strFindLast(s+1, -1, sub_lead, -1) || first!=u_strFindLast(s+1, -1, &lead, 1) || first!=u_strFindLast(s+1, 9, sub_lead, -1) || first!=u_strFindLast(s+1, 9, &lead, 1) ) { log_err("error: one of the u_str[chr etc](U+d801) does not find the correct place\n"); } /* find U+dc02 in s[1..10[ */ first=s+4; if( first!=u_strchr(s+1, trail) || first!=u_strchr32(s+1, trail) || first!=u_memchr(s+1, trail, 9) || first!=u_memchr32(s+1, trail, 9) || first!=u_strstr(s+1, sub_trail) || first!=u_strFindFirst(s+1, -1, sub_trail, -1) || first!=u_strFindFirst(s+1, -1, &trail, 1) || first!=u_strFindFirst(s+1, 9, sub_trail, -1) || first!=u_strFindFirst(s+1, 9, &trail, 1) || first!=u_strrchr(s+1, trail) || first!=u_strrchr32(s+1, trail) || first!=u_memrchr(s+1, trail, 9) || first!=u_memrchr32(s+1, trail, 9) || first!=u_strrstr(s+1, sub_trail) || first!=u_strFindLast(s+1, -1, sub_trail, -1) || first!=u_strFindLast(s+1, -1, &trail, 1) || first!=u_strFindLast(s+1, 9, sub_trail, -1) || first!=u_strFindLast(s+1, 9, &trail, 1) ) { log_err("error: one of the u_str[chr etc](U+dc02) does not find the correct place\n"); } /* find U+10402 in s[1..10[ */ first=s+1; last=s+8; if( first!=u_strchr32(s+1, supp) || first!=u_memchr32(s+1, supp, 9) || first!=u_strstr(s+1, sub_supp) || first!=u_strFindFirst(s+1, -1, sub_supp, -1) || first!=u_strFindFirst(s+1, -1, sub_supp, 2) || first!=u_strFindFirst(s+1, 9, sub_supp, -1) || first!=u_strFindFirst(s+1, 9, sub_supp, 2) || last!=u_strrchr32(s+1, supp) || last!=u_memrchr32(s+1, supp, 9) || last!=u_strrstr(s+1, sub_supp) || last!=u_strFindLast(s+1, -1, sub_supp, -1) || last!=u_strFindLast(s+1, -1, sub_supp, 2) || last!=u_strFindLast(s+1, 9, sub_supp, -1) || last!=u_strFindLast(s+1, 9, sub_supp, 2) ) { log_err("error: one of the u_str[chr etc](U+10402) does not find the correct place\n"); } /* do not find U+10402 in a single UChar */ if( NULL!=u_memchr32(s+1, supp, 1) || NULL!=u_strFindFirst(s+1, 1, sub_supp, -1) || NULL!=u_strFindFirst(s+1, 1, sub_supp, 2) || NULL!=u_memrchr32(s+1, supp, 1) || NULL!=u_strFindLast(s+1, 1, sub_supp, -1) || NULL!=u_strFindLast(s+1, 1, sub_supp, 2) || NULL!=u_memrchr32(s+2, supp, 1) || NULL!=u_strFindLast(s+2, 1, sub_supp, -1) || NULL!=u_strFindLast(s+2, 1, sub_supp, 2) ) { log_err("error: one of the u_str[chr etc](U+10402) incorrectly finds a supplementary c.p. in a single UChar\n"); } /* do not find U+10403 in s[1..10[ */ if( NULL!=u_strchr32(s+1, supp2) || NULL!=u_memchr32(s+1, supp2, 9) || NULL!=u_strstr(s+1, sub_supp2) || NULL!=u_strFindFirst(s+1, -1, sub_supp2, -1) || NULL!=u_strFindFirst(s+1, -1, sub_supp2, 2) || NULL!=u_strFindFirst(s+1, 9, sub_supp2, -1) || NULL!=u_strFindFirst(s+1, 9, sub_supp2, 2) || NULL!=u_strrchr32(s+1, supp2) || NULL!=u_memrchr32(s+1, supp2, 9) || NULL!=u_strrstr(s+1, sub_supp2) || NULL!=u_strFindLast(s+1, -1, sub_supp2, -1) || NULL!=u_strFindLast(s+1, -1, sub_supp2, 2) || NULL!=u_strFindLast(s+1, 9, sub_supp2, -1) || NULL!=u_strFindLast(s+1, 9, sub_supp2, 2) ) { log_err("error: one of the u_str[chr etc](U+10403) incorrectly finds something\n"); } /* find <0061 d801> in s[1..10[ */ first=s+5; if( first!=u_strstr(s+1, sub_a_lead) || first!=u_strFindFirst(s+1, -1, sub_a_lead, -1) || first!=u_strFindFirst(s+1, -1, sub_a_lead, 2) || first!=u_strFindFirst(s+1, 9, sub_a_lead, -1) || first!=u_strFindFirst(s+1, 9, sub_a_lead, 2) || first!=u_strrstr(s+1, sub_a_lead) || first!=u_strFindLast(s+1, -1, sub_a_lead, -1) || first!=u_strFindLast(s+1, -1, sub_a_lead, 2) || first!=u_strFindLast(s+1, 9, sub_a_lead, -1) || first!=u_strFindLast(s+1, 9, sub_a_lead, 2) ) { log_err("error: one of the u_str[str etc](<0061 d801>) does not find the correct place\n"); } /* find <dc02 0061> in s[1..10[ */ first=s+4; if( first!=u_strstr(s+1, sub_trail_a) || first!=u_strFindFirst(s+1, -1, sub_trail_a, -1) || first!=u_strFindFirst(s+1, -1, sub_trail_a, 2) || first!=u_strFindFirst(s+1, 9, sub_trail_a, -1) || first!=u_strFindFirst(s+1, 9, sub_trail_a, 2) || first!=u_strrstr(s+1, sub_trail_a) || first!=u_strFindLast(s+1, -1, sub_trail_a, -1) || first!=u_strFindLast(s+1, -1, sub_trail_a, 2) || first!=u_strFindLast(s+1, 9, sub_trail_a, -1) || first!=u_strFindLast(s+1, 9, sub_trail_a, 2) ) { log_err("error: one of the u_str[str etc](<dc02 0061>) does not find the correct place\n"); } /* do not find "aba" in s[1..10[ */ if( NULL!=u_strstr(s+1, sub_aba) || NULL!=u_strFindFirst(s+1, -1, sub_aba, -1) || NULL!=u_strFindFirst(s+1, -1, sub_aba, 3) || NULL!=u_strFindFirst(s+1, 9, sub_aba, -1) || NULL!=u_strFindFirst(s+1, 9, sub_aba, 3) || NULL!=u_strrstr(s+1, sub_aba) || NULL!=u_strFindLast(s+1, -1, sub_aba, -1) || NULL!=u_strFindLast(s+1, -1, sub_aba, 3) || NULL!=u_strFindLast(s+1, 9, sub_aba, -1) || NULL!=u_strFindLast(s+1, 9, sub_aba, 3) ) { log_err("error: one of the u_str[str etc](\"aba\") incorrectly finds something\n"); } } static void TestStringCopy() { UChar temp[40]; UChar *result=0; UChar subString[5]; UChar uchars[]={0x61, 0x62, 0x63, 0x00}; char charOut[40]; char chars[]="abc"; /* needs default codepage */ log_verbose("Testing u_uastrncpy() and u_uastrcpy()"); u_uastrcpy(temp, "abc"); if(u_strcmp(temp, uchars) != 0) { log_err("There is an error in u_uastrcpy() Expected %s Got %s\n", austrdup(uchars), austrdup(temp)); } temp[0] = 0xFB; /* load garbage into it */ temp[1] = 0xFB; temp[2] = 0xFB; temp[3] = 0xFB; u_uastrncpy(temp, "abcabcabc", 3); if(u_strncmp(uchars, temp, 3) != 0){ log_err("There is an error in u_uastrncpy() Expected %s Got %s\n", austrdup(uchars), austrdup(temp)); } if(temp[3] != 0xFB) { log_err("u_uastrncpy wrote past it's bounds. Expected undisturbed byte at 3\n"); } charOut[0] = (char)0x7B; /* load garbage into it */ charOut[1] = (char)0x7B; charOut[2] = (char)0x7B; charOut[3] = (char)0x7B; temp[0] = 0x0061; temp[1] = 0x0062; temp[2] = 0x0063; temp[3] = 0x0061; temp[4] = 0x0062; temp[5] = 0x0063; temp[6] = 0x0000; u_austrncpy(charOut, temp, 3); if(strncmp(chars, charOut, 3) != 0){ log_err("There is an error in u_austrncpy() Expected %s Got %s\n", austrdup(uchars), austrdup(temp)); } if(charOut[3] != (char)0x7B) { log_err("u_austrncpy wrote past it's bounds. Expected undisturbed byte at 3\n"); } /*Testing u_strchr()*/ log_verbose("Testing u_strchr\n"); temp[0]=0x42; temp[1]=0x62; temp[2]=0x62; temp[3]=0x63; temp[4]=0xd841; temp[5]=0xd841; temp[6]=0xdc02; temp[7]=0; result=u_strchr(temp, (UChar)0x62); if(result != temp+1){ log_err("There is an error in u_strchr() Expected match at position 1 Got %ld (pointer 0x%lx)\n", result-temp, result); } /*Testing u_strstr()*/ log_verbose("Testing u_strstr\n"); subString[0]=0x62; subString[1]=0x63; subString[2]=0; result=u_strstr(temp, subString); if(result != temp+2){ log_err("There is an error in u_strstr() Expected match at position 2 Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_strstr(temp, subString+2); /* subString+2 is an empty string */ if(result != temp){ log_err("There is an error in u_strstr() Expected match at position 0 Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_strstr(subString, temp); if(result != NULL){ log_err("There is an error in u_strstr() Expected NULL \"not found\" Got non-NULL \"found\" result\n"); } /*Testing u_strchr32*/ log_verbose("Testing u_strchr32\n"); result=u_strchr32(temp, (UChar32)0x62); if(result != temp+1){ log_err("There is an error in u_strchr32() Expected match at position 1 Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_strchr32(temp, (UChar32)0xfb); if(result != NULL){ log_err("There is an error in u_strchr32() Expected NULL \"not found\" Got non-NULL \"found\" result\n"); } result=u_strchr32(temp, (UChar32)0x20402); if(result != temp+5){ log_err("There is an error in u_strchr32() Expected match at position 5 Got %ld (pointer 0x%lx)\n", result-temp, result); } temp[7]=0xfc00; result=u_memchr32(temp, (UChar32)0x20402, 7); if(result != temp+5){ log_err("There is an error in u_memchr32() Expected match at position 5 Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_memchr32(temp, (UChar32)0x20402, 6); if(result != NULL){ log_err("There is an error in u_memchr32() Expected no match Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_memchr32(temp, (UChar32)0x20402, 1); if(result != NULL){ log_err("There is an error in u_memchr32() Expected no match Got %ld (pointer 0x%lx)\n", result-temp, result); } result=u_memchr32(temp, (UChar32)0xfc00, 8); if(result != temp+7){ log_err("There is an error in u_memchr32() Expected match at position 7 Got %ld (pointer 0x%lx)\n", result-temp, result); } } /* test u_unescape() and u_unescapeAt() ------------------------------------- */ static void TestUnescape() { static UChar buffer[200]; static const char* input = "Sch\\u00f6nes Auto: \\u20ac 11240.\\fPrivates Zeichen: \\U00102345\\e\\cC\\n \\x1b\\x{263a}"; static const UChar expect[]={ 0x53, 0x63, 0x68, 0xf6, 0x6e, 0x65, 0x73, 0x20, 0x41, 0x75, 0x74, 0x6f, 0x3a, 0x20, 0x20ac, 0x20, 0x31, 0x31, 0x32, 0x34, 0x30, 0x2e, 0x0c, 0x50, 0x72, 0x69, 0x76, 0x61, 0x74, 0x65, 0x73, 0x20, 0x5a, 0x65, 0x69, 0x63, 0x68, 0x65, 0x6e, 0x3a, 0x20, 0xdbc8, 0xdf45, 0x1b, 0x03, 0x0a, 0x20, 0x1b, 0x263A, 0 }; static const int32_t explength = sizeof(expect)/sizeof(expect[0])-1; int32_t length; /* test u_unescape() */ length=u_unescape(input, buffer, sizeof(buffer)/sizeof(buffer[0])); if(length!=explength || u_strcmp(buffer, expect)!=0) { log_err("failure in u_unescape(): length %d!=%d and/or incorrect result string\n", length, explength); } /* try preflighting */ length=u_unescape(input, NULL, sizeof(buffer)/sizeof(buffer[0])); if(length!=explength || u_strcmp(buffer, expect)!=0) { log_err("failure in u_unescape(preflighting): length %d!=%d\n", length, explength); } /* ### TODO: test u_unescapeAt() */ } /* test code point counting functions --------------------------------------- */ /* reference implementation of u_strHasMoreChar32Than() */ static int32_t _refStrHasMoreChar32Than(const UChar *s, int32_t length, int32_t number) { int32_t count=u_countChar32(s, length); return count>number; } /* compare the real function against the reference */ static void _testStrHasMoreChar32Than(const UChar *s, int32_t i, int32_t length, int32_t number) { if(u_strHasMoreChar32Than(s, length, number)!=_refStrHasMoreChar32Than(s, length, number)) { log_err("u_strHasMoreChar32Than(s+%d, %d, %d)=%hd is wrong\n", i, length, number, u_strHasMoreChar32Than(s, length, number)); } } static void TestCountChar32() { static const UChar string[]={ 0x61, 0x62, 0xd800, 0xdc00, 0xd801, 0xdc01, 0x63, 0xd802, 0x64, 0xdc03, 0x65, 0x66, 0xd804, 0xdc04, 0xd805, 0xdc05, 0x67 }; UChar buffer[100]; int32_t i, length, number; /* test u_strHasMoreChar32Than() with length>=0 */ length=LENGTHOF(string); while(length>=0) { for(i=0; i<=length; ++i) { for(number=-1; number<=((length-i)+2); ++number) { _testStrHasMoreChar32Than(string+i, i, length-i, number); } } --length; } /* test u_strHasMoreChar32Than() with NUL-termination (length=-1) */ length=LENGTHOF(string); u_memcpy(buffer, string, length); while(length>=0) { buffer[length]=0; for(i=0; i<=length; ++i) { for(number=-1; number<=((length-i)+2); ++number) { _testStrHasMoreChar32Than(string+i, i, -1, number); } } --length; } /* test u_strHasMoreChar32Than() with NULL string (bad input) */ for(length=-1; length<=1; ++length) { for(i=0; i<=length; ++i) { for(number=-2; number<=2; ++number) { _testStrHasMoreChar32Than(NULL, 0, length, number); } } } } /* UCharIterator ------------------------------------------------------------ */ /* * Compare results from two iterators, should be same. * Assume that the text is not empty and that * iteration start==0 and iteration limit==length. */ static void compareIterators(UCharIterator *iter1, const char *n1, UCharIterator *iter2, const char *n2) { int32_t i, pos1, pos2, middle, length; UChar32 c1, c2; /* compare lengths */ length=iter1->getIndex(iter1, UITER_LENGTH); pos2=iter2->getIndex(iter2, UITER_LENGTH); if(length!=pos2) { log_err("%s->getIndex(length)=%d != %d=%s->getIndex(length)\n", n1, length, pos2, n2); return; } /* set into the middle */ middle=length/2; pos1=iter1->move(iter1, middle, UITER_ZERO); if(pos1!=middle) { log_err("%s->move(from 0 to middle %d)=%d does not move to the middle\n", n1, middle, pos1); return; } pos2=iter2->move(iter2, middle, UITER_ZERO); if(pos2!=middle) { log_err("%s->move(from 0 to middle %d)=%d does not move to the middle\n", n2, middle, pos2); return; } /* test current() */ c1=iter1->current(iter1); c2=iter2->current(iter2); if(c1!=c2) { log_err("%s->current()=U+%04x != U+%04x=%s->current() at middle=%d\n", n1, c1, c2, n2, middle); return; } /* move forward 3 UChars */ for(i=0; i<3; ++i) { c1=iter1->next(iter1); c2=iter2->next(iter2); if(c1!=c2) { log_err("%s->next()=U+%04x != U+%04x=%s->next() at %d (started in middle)\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } /* move backward 5 UChars */ for(i=0; i<5; ++i) { c1=iter1->previous(iter1); c2=iter2->previous(iter2); if(c1!=c2) { log_err("%s->previous()=U+%04x != U+%04x=%s->previous() at %d (started in middle)\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } /* iterate forward from the beginning */ pos1=iter1->move(iter1, 0, UITER_START); if(pos1<0) { log_err("%s->move(start) failed\n", n1); return; } if(!iter1->hasNext(iter1)) { log_err("%s->hasNext() at the start returns FALSE\n", n1); return; } pos2=iter2->move(iter2, 0, UITER_START); if(pos2<0) { log_err("%s->move(start) failed\n", n2); return; } if(!iter2->hasNext(iter2)) { log_err("%s->hasNext() at the start returns FALSE\n", n2); return; } do { c1=iter1->next(iter1); c2=iter2->next(iter2); if(c1!=c2) { log_err("%s->next()=U+%04x != U+%04x=%s->next() at %d\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } while(c1>=0); if(iter1->hasNext(iter1)) { log_err("%s->hasNext() at the end returns TRUE\n", n1); return; } if(iter2->hasNext(iter2)) { log_err("%s->hasNext() at the end returns TRUE\n", n2); return; } /* back to the middle */ pos1=iter1->move(iter1, middle, UITER_ZERO); if(pos1!=middle) { log_err("%s->move(from end to middle %d)=%d does not move to the middle\n", n1, middle, pos1); return; } pos2=iter2->move(iter2, middle, UITER_ZERO); if(pos2!=middle) { log_err("%s->move(from end to middle %d)=%d does not move to the middle\n", n2, middle, pos2); return; } /* move to index 1 */ pos1=iter1->move(iter1, 1, UITER_ZERO); if(pos1!=1) { log_err("%s->move(from middle %d to 1)=%d does not move to 1\n", n1, middle, pos1); return; } pos2=iter2->move(iter2, 1, UITER_ZERO); if(pos2!=1) { log_err("%s->move(from middle %d to 1)=%d does not move to 1\n", n2, middle, pos2); return; } /* iterate backward from the end */ pos1=iter1->move(iter1, 0, UITER_LIMIT); if(pos1<0) { log_err("%s->move(limit) failed\n", n1); return; } if(!iter1->hasPrevious(iter1)) { log_err("%s->hasPrevious() at the end returns FALSE\n", n1); return; } pos2=iter2->move(iter2, 0, UITER_LIMIT); if(pos2<0) { log_err("%s->move(limit) failed\n", n2); return; } if(!iter2->hasPrevious(iter2)) { log_err("%s->hasPrevious() at the end returns FALSE\n", n2); return; } do { c1=iter1->previous(iter1); c2=iter2->previous(iter2); if(c1!=c2) { log_err("%s->previous()=U+%04x != U+%04x=%s->previous() at %d\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } while(c1>=0); if(iter1->hasPrevious(iter1)) { log_err("%s->hasPrevious() at the start returns TRUE\n", n1); return; } if(iter2->hasPrevious(iter2)) { log_err("%s->hasPrevious() at the start returns TRUE\n", n2); return; } } /* * Test the iterator's getState() and setState() functions. * iter1 and iter2 must be set up for the same iterator type and the same string * but may be physically different structs (different addresses). * * Assume that the text is not empty and that * iteration start==0 and iteration limit==length. * It must be 2<=middle<=length-2. */ static void testIteratorState(UCharIterator *iter1, UCharIterator *iter2, const char *n, int32_t middle) { UChar32 u[4]; UErrorCode errorCode; UChar32 c; uint32_t state; int32_t i, j; /* get four UChars from the middle of the string */ iter1->move(iter1, middle-2, UITER_ZERO); for(i=0; i<4; ++i) { c=iter1->next(iter1); if(c<0) { /* the test violates the assumptions, see comment above */ log_err("test error: %s[%d]=%d\n", n, middle-2+i, c); return; } u[i]=c; } /* move to the middle and get the state */ iter1->move(iter1, -2, UITER_CURRENT); state=uiter_getState(iter1); /* set the state into the second iterator and compare the results */ errorCode=U_ZERO_ERROR; uiter_setState(iter2, state, &errorCode); if(U_FAILURE(errorCode)) { log_err("%s->setState(0x%x) failed: %s\n", n, state, u_errorName(errorCode)); return; } c=iter2->current(iter2); if(c!=u[2]) { log_err("%s->current(at %d)=U+%04x!=U+%04x\n", n, middle, c, u[2]); } c=iter2->previous(iter2); if(c!=u[1]) { log_err("%s->previous(at %d)=U+%04x!=U+%04x\n", n, middle-1, c, u[1]); } iter2->move(iter2, 2, UITER_CURRENT); c=iter2->next(iter2); if(c!=u[3]) { log_err("%s->next(at %d)=U+%04x!=U+%04x\n", n, middle+1, c, u[3]); } iter2->move(iter2, -3, UITER_CURRENT); c=iter2->previous(iter2); if(c!=u[0]) { log_err("%s->previous(at %d)=U+%04x!=U+%04x\n", n, middle-2, c, u[0]); } /* move the second iterator back to the middle */ iter2->move(iter2, 1, UITER_CURRENT); iter2->next(iter2); /* check that both are in the middle */ i=iter1->getIndex(iter1, UITER_CURRENT); j=iter2->getIndex(iter2, UITER_CURRENT); if(i!=middle) { log_err("%s->getIndex(current)=%d!=%d as expected\n", n, i, middle); } if(i!=j) { log_err("%s->getIndex(current)=%d!=%d after setState()\n", n, j, i); } /* compare lengths */ i=iter1->getIndex(iter1, UITER_LENGTH); j=iter2->getIndex(iter2, UITER_LENGTH); if(i!=j) { log_err("%s->getIndex(length)=%d!=%d before/after setState()\n", n, i, j); } } static void TestUCharIterator() { static const UChar text[]={ 0x61, 0x62, 0x63, 0xd801, 0xdffd, 0x78, 0x79, 0x7a, 0 }; char bytes[40]; UCharIterator iter, iter1, iter2; UConverter *cnv; UErrorCode errorCode; int32_t length; /* simple API/code coverage - test NOOP UCharIterator */ uiter_setString(&iter, NULL, 0); if( iter.current(&iter)!=-1 || iter.next(&iter)!=-1 || iter.previous(&iter)!=-1 || iter.move(&iter, 1, UITER_CURRENT) || iter.getIndex(&iter, UITER_CURRENT)!=0 || iter.hasNext(&iter) || iter.hasPrevious(&iter) ) { log_err("NOOP UCharIterator behaves unexpectedly\n"); } /* test get/set state */ length=LENGTHOF(text)-1; uiter_setString(&iter1, text, -1); uiter_setString(&iter2, text, length); testIteratorState(&iter1, &iter2, "UTF16IteratorState", length/2); testIteratorState(&iter1, &iter2, "UTF16IteratorStatePlus1", length/2+1); /* compare the same string between UTF-16 and UTF-8 UCharIterators ------ */ errorCode=U_ZERO_ERROR; u_strToUTF8(bytes, sizeof(bytes), &length, text, -1, &errorCode); if(U_FAILURE(errorCode)) { log_err("u_strToUTF8() failed, %s\n", u_errorName(errorCode)); return; } uiter_setString(&iter1, text, -1); uiter_setUTF8(&iter2, bytes, length); compareIterators(&iter1, "UTF16Iterator", &iter2, "UTF8Iterator"); /* try again with length=-1 */ uiter_setUTF8(&iter2, bytes, -1); compareIterators(&iter1, "UTF16Iterator", &iter2, "UTF8Iterator_1"); /* test get/set state */ length=LENGTHOF(text)-1; uiter_setUTF8(&iter1, bytes, -1); testIteratorState(&iter1, &iter2, "UTF8IteratorState", length/2); testIteratorState(&iter1, &iter2, "UTF8IteratorStatePlus1", length/2+1); /* compare the same string between UTF-16 and UTF-16BE UCharIterators --- */ errorCode=U_ZERO_ERROR; cnv=ucnv_open("UTF-16BE", &errorCode); length=ucnv_fromUChars(cnv, bytes, sizeof(bytes), text, -1, &errorCode); ucnv_close(cnv); if(U_FAILURE(errorCode)) { log_err("ucnv_fromUChars(UTF-16BE) failed, %s\n", u_errorName(errorCode)); return; } /* terminate with a _pair_ of 0 bytes - a UChar NUL in UTF-16BE (length is known to be ok) */ bytes[length]=bytes[length+1]=0; uiter_setString(&iter1, text, -1); uiter_setUTF16BE(&iter2, bytes, length); compareIterators(&iter1, "UTF16Iterator", &iter2, "UTF16BEIterator"); /* try again with length=-1 */ uiter_setUTF16BE(&iter2, bytes, -1); compareIterators(&iter1, "UTF16Iterator", &iter2, "UTF16BEIterator_1"); /* try again after moving the bytes up one, and with length=-1 */ memmove(bytes+1, bytes, length+2); uiter_setUTF16BE(&iter2, bytes+1, -1); compareIterators(&iter1, "UTF16Iterator", &iter2, "UTF16BEIteratorMoved1"); /* ### TODO test other iterators: CharacterIterator, Replaceable */ } #if UCONFIG_NO_COLLATION static void TestUNormIterator() { /* test nothing */ } static void TestBadUNormIterator(void) { /* test nothing, as well */ } #else #include "unicode/unorm.h" #include "unorm_it.h" /* * Compare results from two iterators, should be same. * Assume that the text is not empty and that * iteration start==0 and iteration limit==length. * * Modified version of compareIterators() but does not assume that indexes * are available. */ static void compareIterNoIndexes(UCharIterator *iter1, const char *n1, UCharIterator *iter2, const char *n2, int32_t middle) { uint32_t state; int32_t i; UChar32 c1, c2; UErrorCode errorCode; /* code coverage for unorm_it.c/unormIteratorGetIndex() */ if( iter2->getIndex(iter2, UITER_START)!=0 || iter2->getIndex(iter2, UITER_LENGTH)!=UITER_UNKNOWN_INDEX ) { log_err("UNormIterator.getIndex() failed\n"); } /* set into the middle */ iter1->move(iter1, middle, UITER_ZERO); iter2->move(iter2, middle, UITER_ZERO); /* test current() */ c1=iter1->current(iter1); c2=iter2->current(iter2); if(c1!=c2) { log_err("%s->current()=U+%04x != U+%04x=%s->current() at middle=%d\n", n1, c1, c2, n2, middle); return; } /* move forward 3 UChars */ for(i=0; i<3; ++i) { c1=iter1->next(iter1); c2=iter2->next(iter2); if(c1!=c2) { log_err("%s->next()=U+%04x != U+%04x=%s->next() at %d (started in middle)\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } /* move backward 5 UChars */ for(i=0; i<5; ++i) { c1=iter1->previous(iter1); c2=iter2->previous(iter2); if(c1!=c2) { log_err("%s->previous()=U+%04x != U+%04x=%s->previous() at %d (started in middle)\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } /* iterate forward from the beginning */ iter1->move(iter1, 0, UITER_START); if(!iter1->hasNext(iter1)) { log_err("%s->hasNext() at the start returns FALSE\n", n1); return; } iter2->move(iter2, 0, UITER_START); if(!iter2->hasNext(iter2)) { log_err("%s->hasNext() at the start returns FALSE\n", n2); return; } do { c1=iter1->next(iter1); c2=iter2->next(iter2); if(c1!=c2) { log_err("%s->next()=U+%04x != U+%04x=%s->next() at %d\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } while(c1>=0); if(iter1->hasNext(iter1)) { log_err("%s->hasNext() at the end returns TRUE\n", n1); return; } if(iter2->hasNext(iter2)) { log_err("%s->hasNext() at the end returns TRUE\n", n2); return; } /* iterate backward */ do { c1=iter1->previous(iter1); c2=iter2->previous(iter2); if(c1!=c2) { log_err("%s->previous()=U+%04x != U+%04x=%s->previous() at %d\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } while(c1>=0); /* back to the middle */ iter1->move(iter1, middle, UITER_ZERO); iter2->move(iter2, middle, UITER_ZERO); /* try get/set state */ while((state=uiter_getState(iter2))==UITER_NO_STATE) { if(!iter2->hasNext(iter2)) { log_err("%s has no known state from middle=%d to the end\n", n2, middle); return; } iter2->next(iter2); } errorCode=U_ZERO_ERROR; c2=iter2->current(iter2); iter2->move(iter2, 0, UITER_ZERO); uiter_setState(iter2, state, &errorCode); c1=iter2->current(iter2); if(U_FAILURE(errorCode) || c1!=c2) { log_err("%s->current() differs across get/set state, U+%04x vs. U+%04x\n", n2, c2, c1); return; } c2=iter2->previous(iter2); iter2->move(iter2, 0, UITER_ZERO); uiter_setState(iter2, state, &errorCode); c1=iter2->previous(iter2); if(U_FAILURE(errorCode) || c1!=c2) { log_err("%s->previous() differs across get/set state, U+%04x vs. U+%04x\n", n2, c2, c1); return; } /* iterate backward from the end */ iter1->move(iter1, 0, UITER_LIMIT); if(!iter1->hasPrevious(iter1)) { log_err("%s->hasPrevious() at the end returns FALSE\n", n1); return; } iter2->move(iter2, 0, UITER_LIMIT); if(!iter2->hasPrevious(iter2)) { log_err("%s->hasPrevious() at the end returns FALSE\n", n2); return; } do { c1=iter1->previous(iter1); c2=iter2->previous(iter2); if(c1!=c2) { log_err("%s->previous()=U+%04x != U+%04x=%s->previous() at %d\n", n1, c1, c2, n2, iter1->getIndex(iter1, UITER_CURRENT)); return; } } while(c1>=0); if(iter1->hasPrevious(iter1)) { log_err("%s->hasPrevious() at the start returns TRUE\n", n1); return; } if(iter2->hasPrevious(iter2)) { log_err("%s->hasPrevious() at the start returns TRUE\n", n2); return; } } /* n2 must have a digit 1 at the end, will be incremented with the normalization mode */ static void testUNormIteratorWithText(const UChar *text, int32_t textLength, int32_t middle, const char *name1, const char *n2) { UChar buffer[600]; char name2[40]; UCharIterator iter1, iter2, *iter; UNormIterator *uni; UNormalizationMode mode; UErrorCode errorCode; int32_t length; /* open a normalizing iterator */ errorCode=U_ZERO_ERROR; uni=unorm_openIter(NULL, 0, &errorCode); if(U_FAILURE(errorCode)) { log_err("unorm_openIter() fails: %s\n", u_errorName(errorCode)); return; } /* set iterator 2 to the original text */ uiter_setString(&iter2, text, textLength); strcpy(name2, n2); /* test the normalizing iterator for each mode */ for(mode=UNORM_NONE; mode<UNORM_MODE_COUNT; ++mode) { length=unorm_normalize(text, textLength, mode, 0, buffer, LENGTHOF(buffer), &errorCode); if(U_FAILURE(errorCode)) { log_err("unorm_normalize(mode %d) failed: %s\n", mode, u_errorName(errorCode)); break; } /* set iterator 1 to the normalized text */ uiter_setString(&iter1, buffer, length); /* set the normalizing iterator to use iter2 */ iter=unorm_setIter(uni, &iter2, mode, &errorCode); if(U_FAILURE(errorCode)) { log_err("unorm_setIter(mode %d) failed: %s\n", mode, u_errorName(errorCode)); break; } compareIterNoIndexes(&iter1, name1, iter, name2, middle); ++name2[strlen(name2)-1]; } unorm_closeIter(uni); } static void TestUNormIterator() { static const UChar text[]={ /* must contain <00C5 0327> see u_strchr() below */ 0x61, /* 'a' */ 0xe4, 0x61, 0x308, /* variations of 'a'+umlaut */ 0xc5, 0x327, 0x41, 0x30a, 0x327, 0x41, 0x327, 0x30a, /* variations of 'A'+ring+cedilla */ 0xfb03, 0xfb00, 0x69, 0x66, 0x66, 0x69, 0x66, 0xfb01 /* variations of 'ffi' */ }; static const UChar surrogateText[]={ 0x6e, 0xd900, 0x6a, 0xdc00, 0xd900, 0xdc00, 0x61 }; UChar longText[600]; int32_t i, middle, length; length=LENGTHOF(text); testUNormIteratorWithText(text, length, length/2, "UCharIter", "UNormIter1"); testUNormIteratorWithText(text, length, length, "UCharIterEnd", "UNormIterEnd1"); /* test again, this time with an insane string to cause internal buffer overflows */ middle=(int32_t)(u_strchr(text, 0x327)-text); /* see comment at text[] */ memcpy(longText, text, middle*U_SIZEOF_UCHAR); for(i=0; i<150; ++i) { longText[middle+i]=0x30a; /* insert many rings between 'A-ring' and cedilla */ } memcpy(longText+middle+i, text+middle, (LENGTHOF(text)-middle)*U_SIZEOF_UCHAR); length=LENGTHOF(text)+i; /* append another copy of this string for more overflows */ memcpy(longText+length, longText, length*U_SIZEOF_UCHAR); length*=2; /* the first test of the following two starts at length/4, inside the sea of combining rings */ testUNormIteratorWithText(longText, length, length/4, "UCharIterLong", "UNormIterLong1"); testUNormIteratorWithText(longText, length, length, "UCharIterLongEnd", "UNormIterLongEnd1"); length=LENGTHOF(surrogateText); testUNormIteratorWithText(surrogateText, length, length/4, "UCharIterSurr", "UNormIterSurr1"); testUNormIteratorWithText(surrogateText, length, length, "UCharIterSurrEnd", "UNormIterSurrEnd1"); } static void TestBadUNormIterator(void) { #if !UCONFIG_NO_NORMALIZATION UErrorCode status = U_ILLEGAL_ESCAPE_SEQUENCE; UNormIterator *uni; unorm_setIter(NULL, NULL, UNORM_NONE, &status); if (status != U_ILLEGAL_ESCAPE_SEQUENCE) { log_err("unorm_setIter changed the error code to: %s\n", u_errorName(status)); } status = U_ZERO_ERROR; unorm_setIter(NULL, NULL, UNORM_NONE, &status); if (status != U_ILLEGAL_ARGUMENT_ERROR) { log_err("unorm_setIter didn't react correctly to bad arguments: %s\n", u_errorName(status)); } status = U_ZERO_ERROR; uni=unorm_openIter(NULL, 0, &status); if(U_FAILURE(status)) { log_err("unorm_openIter() fails: %s\n", u_errorName(status)); return; } unorm_setIter(uni, NULL, UNORM_NONE, &status); unorm_closeIter(uni); #endif } #endif