/* ********************************************************************** * Copyright (C) 2014, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * file name: unisetperf.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2007jan31 * created by: Markus Scherer */ #include #include #include #include "unicode/uperf.h" #include "unicode/uniset.h" #include "unicode/unistr.h" #include "uoptions.h" // Command-line options specific to unisetperf. // Options do not have abbreviations: Force readable command lines. // (Using U+0001 for abbreviation characters.) enum { SET_PATTERN, FAST_TYPE, UNISETPERF_OPTIONS_COUNT }; static UOption options[UNISETPERF_OPTIONS_COUNT]={ UOPTION_DEF("pattern", '\x01', UOPT_REQUIRES_ARG), UOPTION_DEF("type", '\x01', UOPT_REQUIRES_ARG) }; static const char *const unisetperf_usage = "\t--pattern UnicodeSet pattern for instantiation.\n" "\t Default: [:ID_Continue:]\n" "\t--type Type of UnicodeSet: slow fast\n" "\t Default: slow\n"; // Test object with setup data. class UnicodeSetPerformanceTest : public UPerfTest { public: UnicodeSetPerformanceTest(int32_t argc, const char *argv[], UErrorCode &status) : UPerfTest(argc, argv, options, uprv_lengthof(options), unisetperf_usage, status), utf8(NULL), utf8Length(0), countInputCodePoints(0), spanCount(0) { if (U_SUCCESS(status)) { UnicodeString pattern=UnicodeString(options[SET_PATTERN].value, -1, US_INV).unescape(); set.applyPattern(pattern, status); prefrozen=set; if(0==strcmp(options[FAST_TYPE].value, "fast")) { set.freeze(); } int32_t inputLength; UPerfTest::getBuffer(inputLength, status); if(U_SUCCESS(status) && inputLength>0) { countInputCodePoints = u_countChar32(buffer, bufferLen); countSpans(); // Preflight the UTF-8 length and allocate utf8. u_strToUTF8(NULL, 0, &utf8Length, buffer, bufferLen, &status); if(status==U_BUFFER_OVERFLOW_ERROR) { utf8=(char *)malloc(utf8Length); if(utf8!=NULL) { status=U_ZERO_ERROR; u_strToUTF8(utf8, utf8Length, NULL, buffer, bufferLen, &status); } else { status=U_MEMORY_ALLOCATION_ERROR; } } if(verbose) { printf("code points:%ld len16:%ld len8:%ld spans:%ld " "cp/span:%.3g UChar/span:%.3g B/span:%.3g B/cp:%.3g\n", (long)countInputCodePoints, (long)bufferLen, (long)utf8Length, (long)spanCount, (double)countInputCodePoints/spanCount, (double)bufferLen/spanCount, (double)utf8Length/spanCount, (double)utf8Length/countInputCodePoints); } } } } virtual UPerfFunction* runIndexedTest(int32_t index, UBool exec, const char* &name, char* par = NULL); // Count spans of characters that are in the set, // and spans of characters that are not in the set. // If the very first character is in the set, then one additional // not-span is counted. void countSpans() { const UChar *s=getBuffer(); int32_t length=getBufferLen(); int32_t i=0; UBool tf=FALSE; while(i0) { set.add(c); } } for(c=0xd800; c<=0xdbff; ++c) { utf16[0]=(UChar)c; for(c2=0xdc00; c2<=0xdfff; ++c2) { utf16[1]=(UChar)c2; if(testcase.set.span(utf16, 2, USET_SPAN_CONTAINED)>0) { set.add(U16_GET_SUPPLEMENTARY(c, c2)); } } } if(set!=testcase.set) { fprintf(stderr, "error: frozen set != original!\n"); } } public: static UPerfFunction* get(const UnicodeSetPerformanceTest &testcase) { return new SpanUTF16(testcase); } virtual void call(UErrorCode* pErrorCode) { const UnicodeSet &set=testcase.set; const UChar *s=testcase.getBuffer(); int32_t length=testcase.getBufferLen(); int32_t count=0; int32_t i=0; UBool tf=FALSE; while(i0 || !tf) { length=set.spanBack(s, length, (USetSpanCondition)tf); tf=(UBool)(!tf); ++count; } if(count!=testcase.spanCount) { fprintf(stderr, "error: SpanBackUTF16() count=%ld != %ld=UnicodeSetPerformanceTest.spanCount\n", (long)count, (long)testcase.spanCount); } } }; class SpanUTF8 : public Command { protected: SpanUTF8(const UnicodeSetPerformanceTest &testcase) : Command(testcase) { // Verify that the frozen set is equal to the unfrozen one. UnicodeSet set; char utf8[4]; UChar32 c; int32_t length; for(c=0; c<=0x10ffff; ++c) { if(c==0xd800) { c=0xe000; } length=0; U8_APPEND_UNSAFE(utf8, length, c); if(testcase.set.spanUTF8(utf8, length, USET_SPAN_CONTAINED)>0) { set.add(c); } } if(set!=testcase.set) { fprintf(stderr, "error: frozen set != original!\n"); } } public: static UPerfFunction* get(const UnicodeSetPerformanceTest &testcase) { return new SpanUTF8(testcase); } virtual void call(UErrorCode* pErrorCode) { const UnicodeSet &set=testcase.set; const char *s=testcase.utf8; int32_t length=testcase.utf8Length; int32_t count=0; int32_t i=0; UBool tf=FALSE; while(i0 || !tf) { length=set.spanBackUTF8(s, length, (USetSpanCondition)tf); tf=(UBool)(!tf); ++count; } if(count!=testcase.spanCount) { fprintf(stderr, "error: SpanBackUTF8() count=%ld != %ld=UnicodeSetPerformanceTest.spanCount\n", (long)count, (long)testcase.spanCount); } } }; UPerfFunction* UnicodeSetPerformanceTest::runIndexedTest(int32_t index, UBool exec, const char* &name, char* par) { switch (index) { case 0: name = "Contains"; if (exec) return Contains::get(*this); break; case 1: name = "SpanUTF16"; if (exec) return SpanUTF16::get(*this); break; case 2: name = "SpanBackUTF16";if (exec) return SpanBackUTF16::get(*this); break; case 3: name = "SpanUTF8"; if (exec) return SpanUTF8::get(*this); break; case 4: name = "SpanBackUTF8"; if (exec) return SpanBackUTF8::get(*this); break; default: name = ""; break; } return NULL; } int main(int argc, const char *argv[]) { // Default values for command-line options. options[SET_PATTERN].value = "[:ID_Continue:]"; options[FAST_TYPE].value = "slow"; UErrorCode status = U_ZERO_ERROR; UnicodeSetPerformanceTest test(argc, argv, status); if (U_FAILURE(status)){ printf("The error is %s\n", u_errorName(status)); test.usage(); return status; } if (test.run() == FALSE){ fprintf(stderr, "FAILED: Tests could not be run, please check the " "arguments.\n"); return 1; } return 0; }