/* ******************************************************************************* * * © 2016 and later: Unicode, Inc. and others. * License & terms of use: http://www.unicode.org/copyright.html * ******************************************************************************* ******************************************************************************* * * Copyright (C) 1999-2013, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* */ #include "unicode/utypes.h" #include "unicode/uclean.h" #include "unicode/uchar.h" #include "unicode/unistr.h" #include "unicode/uscript.h" #include "unicode/putil.h" #include "unicode/ctest.h" #include "layout/LETypes.h" #include "layout/LEScripts.h" #include "letsutil.h" #include "letest.h" #include "xmlreader.h" #include "xmlparser.h" #include #include #include //U_NAMESPACE_USE #define CH_COMMA 0x002C static le_uint32 *getHexArray(const UnicodeString &numbers, int32_t &arraySize) { int32_t offset = -1; arraySize = 1; while((offset = numbers.indexOf(CH_COMMA, offset + 1)) >= 0) { arraySize += 1; } le_uint32 *array = NEW_ARRAY(le_uint32, arraySize); char number[16]; le_int32 count = 0; le_int32 start = 0, end = 0; le_int32 len = 0; // trim leading whitespace while(u_isUWhiteSpace(numbers[start])) { start += 1; } while((end = numbers.indexOf(CH_COMMA, start)) >= 0) { len = numbers.extract(start, end - start, number, ARRAY_SIZE(number), US_INV); number[len] = '\0'; start = end + 1; sscanf(number, "%x", &array[count++]); // trim whitespace following the comma while(u_isUWhiteSpace(numbers[start])) { start += 1; } } // trim trailing whitespace end = numbers.length(); while(u_isUWhiteSpace(numbers[end - 1])) { end -= 1; } len = numbers.extract(start, end - start, number, ARRAY_SIZE(number), US_INV); number[len] = '\0'; sscanf(number, "%x", &array[count]); return array; } static float *getFloatArray(const UnicodeString &numbers, int32_t &arraySize) { int32_t offset = -1; arraySize = 1; while((offset = numbers.indexOf(CH_COMMA, offset + 1)) >= 0) { arraySize += 1; } float *array = NEW_ARRAY(float, arraySize); char number[32]; le_int32 count = 0; le_int32 start = 0, end = 0; le_int32 len = 0; // trim leading whitespace while(u_isUWhiteSpace(numbers[start])) { start += 1; } while((end = numbers.indexOf(CH_COMMA, start)) >= 0) { len = numbers.extract(start, end - start, number, ARRAY_SIZE(number), US_INV); number[len] = '\0'; start = end + 1; sscanf(number, "%f", &array[count++]); // trim whiteapce following the comma while(u_isUWhiteSpace(numbers[start])) { start += 1; } } while(u_isUWhiteSpace(numbers[start])) { start += 1; } // trim trailing whitespace end = numbers.length(); while(u_isUWhiteSpace(numbers[end - 1])) { end -= 1; } len = numbers.extract(start, end - start, number, ARRAY_SIZE(number), US_INV); number[len] = '\0'; sscanf(number, "%f", &array[count]); return array; } U_CDECL_BEGIN void readTestFile(const char *testFilePath, TestCaseCallback callback) { #if !UCONFIG_NO_REGULAR_EXPRESSIONS UErrorCode status = U_ZERO_ERROR; UXMLParser *parser = UXMLParser::createParser(status); UXMLElement *root = parser->parseFile(testFilePath, status); if (root == NULL) { log_err("Could not open the test data file: %s\n", testFilePath); delete parser; return; } UnicodeString test_case = UNICODE_STRING_SIMPLE("test-case"); UnicodeString test_text = UNICODE_STRING_SIMPLE("test-text"); UnicodeString test_font = UNICODE_STRING_SIMPLE("test-font"); UnicodeString result_glyphs = UNICODE_STRING_SIMPLE("result-glyphs"); UnicodeString result_indices = UNICODE_STRING_SIMPLE("result-indices"); UnicodeString result_positions = UNICODE_STRING_SIMPLE("result-positions"); // test-case attributes UnicodeString id_attr = UNICODE_STRING_SIMPLE("id"); UnicodeString script_attr = UNICODE_STRING_SIMPLE("script"); UnicodeString lang_attr = UNICODE_STRING_SIMPLE("lang"); // test-font attributes UnicodeString name_attr = UNICODE_STRING_SIMPLE("name"); UnicodeString ver_attr = UNICODE_STRING_SIMPLE("version"); UnicodeString cksum_attr = UNICODE_STRING_SIMPLE("checksum"); const UXMLElement *testCase; int32_t tc = 0; while((testCase = root->nextChildElement(tc)) != NULL) { if (testCase->getTagName().compare(test_case) == 0) { char *id = getCString(testCase->getAttribute(id_attr)); char *script = getCString(testCase->getAttribute(script_attr)); char *lang = getCString(testCase->getAttribute(lang_attr)); char *fontName = NULL; char *fontVer = NULL; char *fontCksum = NULL; const UXMLElement *element; int32_t ec = 0; int32_t charCount = 0; int32_t typoFlags = 3; // kerning + ligatures... UScriptCode scriptCode; le_int32 languageCode = -1; UnicodeString text, glyphs, indices, positions; int32_t glyphCount = 0, indexCount = 0, positionCount = 0; TestResult expected = {0, NULL, NULL, NULL}; uscript_getCode(script, &scriptCode, 1, &status); if (LE_FAILURE(status)) { log_err("invalid script name: %s.\n", script); goto free_c_strings; } if (lang != NULL) { languageCode = getLanguageCode(lang); if (languageCode < 0) { log_err("invalid language name: %s.\n", lang); goto free_c_strings; } } while((element = testCase->nextChildElement(ec)) != NULL) { UnicodeString tag = element->getTagName(); // TODO: make sure that each element is only used once. if (tag.compare(test_font) == 0) { fontName = getCString(element->getAttribute(name_attr)); fontVer = getCString(element->getAttribute(ver_attr)); fontCksum = getCString(element->getAttribute(cksum_attr)); } else if (tag.compare(test_text) == 0) { text = element->getText(TRUE); charCount = text.length(); } else if (tag.compare(result_glyphs) == 0) { glyphs = element->getText(TRUE); } else if (tag.compare(result_indices) == 0) { indices = element->getText(TRUE); } else if (tag.compare(result_positions) == 0) { positions = element->getText(TRUE); } else { // an unknown tag... char *cTag = getCString(&tag); log_info("Test %s: unknown element with tag \"%s\"\n", id, cTag); freeCString(cTag); } } expected.glyphs = (LEGlyphID *) getHexArray(glyphs, glyphCount); expected.indices = (le_int32 *) getHexArray(indices, indexCount); expected.positions = getFloatArray(positions, positionCount); expected.glyphCount = glyphCount; if (glyphCount < charCount || indexCount != glyphCount || positionCount < glyphCount * 2 + 2) { log_err("Test %s: inconsistent input data: charCount = %d, glyphCount = %d, indexCount = %d, positionCount = %d\n", id, charCount, glyphCount, indexCount, positionCount); goto free_expected; }; (*callback)(id, fontName, fontVer, fontCksum, scriptCode, languageCode, text.getBuffer(), charCount, &expected); free_expected: DELETE_ARRAY(expected.positions); DELETE_ARRAY(expected.indices); DELETE_ARRAY(expected.glyphs); free_c_strings: freeCString(fontCksum); freeCString(fontVer); freeCString(fontName); freeCString(lang); freeCString(script); freeCString(id); } } delete root; delete parser; #endif } U_CDECL_END