icu4c/source/test/intltest/numbertest_permutation.cpp - external/github.com/unicode-org/icu - Git at Google

 // © 2019 and later: Unicode, Inc. and others.
 // License & terms of use: http://www.unicode.org/copyright.html

 #include "unicode/utypes.h"

 #if !UCONFIG_NO_FORMATTING

 #include <fstream>
 #include <iostream>
 #include <vector>

 #include "numbertest.h"
 #include "ucbuf.h"
 #include "unicode/numberformatter.h"

 void NumberPermutationTest::runIndexedTest(int32_t index, UBool exec, const char*& name, char*) {
     if (exec) {
         logln("TestSuite NumberPermutationTest: ");
     }
     TESTCASE_AUTO_BEGIN;
     TESTCASE_AUTO(testPermutations);
     TESTCASE_AUTO_END;
 }

 static const char16_t* kSkeletonParts[] = {
     // Notation
     u"compact-short",
     u"scientific/+ee/sign-always",
     nullptr,
     // Unit
     u"percent",
     u"currency/EUR",
     u"measure-unit/length-furlong",
     nullptr,
     // Unit Width
     u"unit-width-narrow",
     u"unit-width-full-name",
     nullptr,
     // Precision
     u"precision-integer",
     u".000",
     u".##/@@@+",
     u"@@",
     nullptr,
     // Rounding Mode
     u"rounding-mode-floor",
     nullptr,
     // Integer Width
     u"integer-width/##00",
     nullptr,
     // Scale
     u"scale/0.5",
     nullptr,
     // Grouping
     u"group-on-aligned",
     nullptr,
     // Symbols
     u"latin",
     nullptr,
     // Sign Display
     u"sign-accounting-except-zero",
     nullptr,
     // Decimal Separator Display
     u"decimal-always",
     nullptr,
 };

 static const double kNumbersToTest[]{0, 91827.3645, -0.22222};

 /**
  * Test permutations of 3 orthogonal skeleton parts from the list above.
  * Compare the results against the golden data file:
  *     numberpermutationtest.txt
  * To regenerate that file, run intltest with the -e and -G options.
  * On Linux, from icu4c/source:
  *     make -j8 tests && (cd test/intltest && LD_LIBRARY_PATH=../../lib:../../tools/ctestfw ./intltest -e -G format/NumberTest/NumberPermutationTest)
  * After re-generating the file, copy it into icu4j:
  *     cp test/testdata/numberpermutationtest.txt ../../icu4j/main/tests/core/src/com/ibm/icu/dev/data/numberpermutationtest.txt
  */
 void NumberPermutationTest::testPermutations() {
     IcuTestErrorCode status(*this, "testPermutations");

     const struct LocaleData {
         Locale locale;
         const char16_t* ustring;
     } localesToTest[] = {
         {"es-MX", u"es-MX"},
         {"zh-TW", u"zh-TW"},
         {"bn-BD", u"bn-BD"},
     };

     // Convert kSkeletonParts to a more convenient data structure
     auto skeletonParts = std::vector<std::vector<const char16_t*>>();
     auto currentSection = std::vector<const char16_t*>();
     for (int32_t i = 0; i < UPRV_LENGTHOF(kSkeletonParts); i++) {
         const char16_t* skeletonPart = kSkeletonParts[i];
         if (skeletonPart == nullptr) {
             skeletonParts.push_back(currentSection);
             currentSection.clear();
         } else {
             currentSection.push_back(skeletonPart);
         }
     }

     // Build up the golden data string as we evaluate all permutations
     std::vector<UnicodeString> resultLines;
     resultLines.push_back(u"# © 2019 and later: Unicode, Inc. and others.");
     resultLines.push_back(u"# License & terms of use: http://www.unicode.org/copyright.html");
     resultLines.push_back(UnicodeString());

     // Take combinations of 3 orthogonal options
     for (size_t i = 0; i < skeletonParts.size() - 2; i++) {
         const auto& skeletons1 = skeletonParts[i];
         for (size_t j = i + 1; j < skeletonParts.size() - 1; j++) {
             const auto& skeletons2 = skeletonParts[j];
             for (size_t k = j + 1; k < skeletonParts.size(); k++) {
                 const auto& skeletons3 = skeletonParts[k];

                 // Evaluate all combinations of skeletons for these options
                 for (const auto& skel1 : skeletons1) {
                     for (const auto& skel2 : skeletons2) {
                         for (const auto& skel3 : skeletons3) {
                             // Compute the skeleton
                             UnicodeString skeleton;
                             skeleton
                                 .append(skel1)  //
                                 .append(u' ')   //
                                 .append(skel2)  //
                                 .append(u' ')   //
                                 .append(skel3);
                             resultLines.push_back(skeleton);

                             // Check several locales and several numbers in each locale
                             for (const auto& locData : localesToTest) {
                                 auto lnf = NumberFormatter::forSkeleton(skeleton, status)
                                                .locale(locData.locale);
                                 resultLines.push_back(UnicodeString(u"  ").append(locData.ustring));
                                 for (const auto& input : kNumbersToTest) {
                                     resultLines.push_back(UnicodeString(u"    ").append(
                                         lnf.formatDouble(input, status).toTempString(status)));
                                 }
                             }

                             resultLines.push_back(UnicodeString());
                         }
                     }
                 }
             }

             // Quick mode: test all fields at least once but stop early.
             if (quick) {
                 infoln(u"Quick mode: stopped after " + Int64ToUnicodeString(resultLines.size()) +
                        u" lines");
                 goto outerEnd;
             }
         }
     }
 outerEnd:
     void();

     CharString goldenFilePath(getSourceTestData(status), status);
     goldenFilePath.appendPathPart("numberpermutationtest.txt", status);

     // Compare it to the golden file
     const char* codePage = "UTF-8";
     LocalUCHARBUFPointer f(ucbuf_open(goldenFilePath.data(), &codePage, TRUE, FALSE, status));
     if (!assertSuccess("Can't open data file", status)) {
         return;
     }

     int32_t lineNumber = 1;
     int32_t lineLength;
     for (const auto& actualLine : resultLines) {
         const UChar* lineBuf = ucbuf_readline(f.getAlias(), &lineLength, status);
         if (lineBuf == nullptr) {
             errln("More lines generated than are in the data file!");
             break;
         }
         UnicodeString expectedLine(lineBuf, lineLength - 1);
         assertEquals(u"Line #" + Int64ToUnicodeString(lineNumber) + u" differs",  //
             expectedLine, actualLine);
         lineNumber++;
     }
     // Quick mode: test all fields at least once but stop early.
     if (!quick && ucbuf_readline(f.getAlias(), &lineLength, status) != nullptr) {
         errln("Fewer lines generated than are in the data file!");
     }

     // Overwrite the golden data if requested
     if (write_golden_data) {
         std::ofstream outFile;
         outFile.open(goldenFilePath.data());
         for (const auto& uniLine : resultLines) {
             std::string byteLine;
             uniLine.toUTF8String(byteLine);
             outFile << byteLine << std::endl;
         }
         outFile.close();
     }
 }

 #endif /* #if !UCONFIG_NO_FORMATTING */
	// © 2019 and later: Unicode, Inc. and others.
	// License & terms of use: http://www.unicode.org/copyright.html

	#include "unicode/utypes.h"

	#if !UCONFIG_NO_FORMATTING

	#include <fstream>
	#include <iostream>
	#include <vector>

	#include "numbertest.h"
	#include "ucbuf.h"
	#include "unicode/numberformatter.h"

	void NumberPermutationTest::runIndexedTest(int32_t index, UBool exec, const char& name, char) {
	if (exec) {
	logln("TestSuite NumberPermutationTest: ");
	}
	TESTCASE_AUTO_BEGIN;
	TESTCASE_AUTO(testPermutations);
	TESTCASE_AUTO_END;
	}

	static const char16_t* kSkeletonParts[] = {
	// Notation
	u"compact-short",
	u"scientific/+ee/sign-always",
	nullptr,
	// Unit
	u"percent",
	u"currency/EUR",
	u"measure-unit/length-furlong",
	nullptr,
	// Unit Width
	u"unit-width-narrow",
	u"unit-width-full-name",
	nullptr,
	// Precision
	u"precision-integer",
	u".000",
	u".##/@@@+",
	u"@@",
	nullptr,
	// Rounding Mode
	u"rounding-mode-floor",
	nullptr,
	// Integer Width
	u"integer-width/##00",
	nullptr,
	// Scale
	u"scale/0.5",
	nullptr,
	// Grouping
	u"group-on-aligned",
	nullptr,
	// Symbols
	u"latin",
	nullptr,
	// Sign Display
	u"sign-accounting-except-zero",
	nullptr,
	// Decimal Separator Display
	u"decimal-always",
	nullptr,
	};

	static const double kNumbersToTest[]{0, 91827.3645, -0.22222};

	/**
	* Test permutations of 3 orthogonal skeleton parts from the list above.
	* Compare the results against the golden data file:
	* numberpermutationtest.txt
	* To regenerate that file, run intltest with the -e and -G options.
	* On Linux, from icu4c/source:
	* make -j8 tests && (cd test/intltest && LD_LIBRARY_PATH=../../lib:../../tools/ctestfw ./intltest -e -G format/NumberTest/NumberPermutationTest)
	* After re-generating the file, copy it into icu4j:
	* cp test/testdata/numberpermutationtest.txt ../../icu4j/main/tests/core/src/com/ibm/icu/dev/data/numberpermutationtest.txt
	*/
	void NumberPermutationTest::testPermutations() {
	IcuTestErrorCode status(*this, "testPermutations");

	const struct LocaleData {
	Locale locale;
	const char16_t* ustring;
	} localesToTest[] = {
	{"es-MX", u"es-MX"},
	{"zh-TW", u"zh-TW"},
	{"bn-BD", u"bn-BD"},
	};

	// Convert kSkeletonParts to a more convenient data structure
	auto skeletonParts = std::vector<std::vector<const char16_t*>>();
	auto currentSection = std::vector<const char16_t*>();
	for (int32_t i = 0; i < UPRV_LENGTHOF(kSkeletonParts); i++) {
	const char16_t* skeletonPart = kSkeletonParts[i];
	if (skeletonPart == nullptr) {
	skeletonParts.push_back(currentSection);
	currentSection.clear();
	} else {
	currentSection.push_back(skeletonPart);
	}
	}

	// Build up the golden data string as we evaluate all permutations
	std::vector<UnicodeString> resultLines;
	resultLines.push_back(u"# © 2019 and later: Unicode, Inc. and others.");
	resultLines.push_back(u"# License & terms of use: http://www.unicode.org/copyright.html");
	resultLines.push_back(UnicodeString());

	// Take combinations of 3 orthogonal options
	for (size_t i = 0; i < skeletonParts.size() - 2; i++) {
	const auto& skeletons1 = skeletonParts[i];
	for (size_t j = i + 1; j < skeletonParts.size() - 1; j++) {
	const auto& skeletons2 = skeletonParts[j];
	for (size_t k = j + 1; k < skeletonParts.size(); k++) {
	const auto& skeletons3 = skeletonParts[k];

	// Evaluate all combinations of skeletons for these options
	for (const auto& skel1 : skeletons1) {
	for (const auto& skel2 : skeletons2) {
	for (const auto& skel3 : skeletons3) {
	// Compute the skeleton
	UnicodeString skeleton;
	skeleton
	.append(skel1) //
	.append(u' ') //
	.append(skel2) //
	.append(u' ') //
	.append(skel3);
	resultLines.push_back(skeleton);

	// Check several locales and several numbers in each locale
	for (const auto& locData : localesToTest) {
	auto lnf = NumberFormatter::forSkeleton(skeleton, status)
	.locale(locData.locale);
	resultLines.push_back(UnicodeString(u" ").append(locData.ustring));
	for (const auto& input : kNumbersToTest) {
	resultLines.push_back(UnicodeString(u" ").append(
	lnf.formatDouble(input, status).toTempString(status)));
	}
	}

	resultLines.push_back(UnicodeString());
	}
	}
	}
	}

	// Quick mode: test all fields at least once but stop early.
	if (quick) {
	infoln(u"Quick mode: stopped after " + Int64ToUnicodeString(resultLines.size()) +
	u" lines");
	goto outerEnd;
	}
	}
	}
	outerEnd:
	void();

	CharString goldenFilePath(getSourceTestData(status), status);
	goldenFilePath.appendPathPart("numberpermutationtest.txt", status);

	// Compare it to the golden file
	const char* codePage = "UTF-8";
	LocalUCHARBUFPointer f(ucbuf_open(goldenFilePath.data(), &codePage, TRUE, FALSE, status));
	if (!assertSuccess("Can't open data file", status)) {
	return;
	}

	int32_t lineNumber = 1;
	int32_t lineLength;
	for (const auto& actualLine : resultLines) {
	const UChar* lineBuf = ucbuf_readline(f.getAlias(), &lineLength, status);
	if (lineBuf == nullptr) {
	errln("More lines generated than are in the data file!");
	break;
	}
	UnicodeString expectedLine(lineBuf, lineLength - 1);
	assertEquals(u"Line #" + Int64ToUnicodeString(lineNumber) + u" differs", //
	expectedLine, actualLine);
	lineNumber++;
	}
	// Quick mode: test all fields at least once but stop early.
	if (!quick && ucbuf_readline(f.getAlias(), &lineLength, status) != nullptr) {
	errln("Fewer lines generated than are in the data file!");
	}

	// Overwrite the golden data if requested
	if (write_golden_data) {
	std::ofstream outFile;
	outFile.open(goldenFilePath.data());
	for (const auto& uniLine : resultLines) {
	std::string byteLine;
	uniLine.toUTF8String(byteLine);
	outFile << byteLine << std::endl;
	}
	outFile.close();
	}
	}

	#endif /* #if !UCONFIG_NO_FORMATTING */