calendar display type supports Gregorian with Chinese

src/lib/calendar/chinese_calendar_data.ts

@@ -0,0 +1,455 @@
+// Chinese Calendar data from Hong Kong Observatory: https://www.hko.gov.hk/tc/gts/time/conversion1_text.htm
+// The following bash scripts is about generating compacted Chinese calendar data
+/*
+#!/bin/bash
+
+# fetch calendar date from Hong Kong Observatory
+for i in {1999..2100};
+do
+    wget "https://my.weather.gov.hk/en/gts/time/calendar/text/files/T${i}e.txt";
+done
+
+# generate the compacted data
+for i in {1999..2100};
+do
+    if ! [ -f "T${i}e.txt" ]; then
+        echo "Error: file T${i}e.txt not exists";
+        exit 1;
+    fi
+
+    cat T${i}e.txt;
+done | grep -v 'Gregorian-Lunar Calendar Conversion Table' | awk '
+function rtrim(s) {
+    sub(/[ \t]+$/, "", s);
+    return s;
+}
+BEGIN {
+    # constants
+    FIRST_YEAR = 1999;
+    LAST_YEAR = 2100;
+    GREGORIAN_CALENDAR_1999_1_1_CHINESE_YEAR = 1998;
+    GREGORIAN_CALENDAR_1999_1_1_CHINESE_MONTH = 11;
+    CHINESE_CALENDAR_MONTH_COUNT = 12;
+    CHINESE_CALENDAR_BIG_MONTH_DAYS = 30;
+    CHINESE_CALENDAR_SOLAR_TERMS_COUNT = 24;
+    SINGLE_QUOTE_CHAR = 39;
+    split("0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ", BASE36_CHARS, "");
+    SOLAR_TERMS_INDEX["Moderate Cold"] = 1;
+    SOLAR_TERMS_INDEX["Severe Cold"] = 2;
+    SOLAR_TERMS_INDEX["Spring Commences"] = 3;
+    SOLAR_TERMS_INDEX["Spring Showers"] = 4;
+    SOLAR_TERMS_INDEX["Insects Waken"] = 5;
+    SOLAR_TERMS_INDEX["Vernal Equinox"] = 6;
+    SOLAR_TERMS_INDEX["Bright & Clear"] = 7;
+    SOLAR_TERMS_INDEX["Corn Rain"] = 8;
+    SOLAR_TERMS_INDEX["Summer Commences"] = 9;
+    SOLAR_TERMS_INDEX["Corn Forms"] = 10;
+    SOLAR_TERMS_INDEX["Corn on Ear"] = 11;
+    SOLAR_TERMS_INDEX["Summer Solstice"] = 12;
+    SOLAR_TERMS_INDEX["Moderate Heat"] = 13;
+    SOLAR_TERMS_INDEX["Great Heat"] = 14;
+    SOLAR_TERMS_INDEX["Autumn Commences"] = 15;
+    SOLAR_TERMS_INDEX["End of Heat"] = 16;
+    SOLAR_TERMS_INDEX["White Dew"] = 17;
+    SOLAR_TERMS_INDEX["Autumnal Equinox"] = 18;
+    SOLAR_TERMS_INDEX["Cold Dew"] = 19;
+    SOLAR_TERMS_INDEX["Frost"] = 20;
+    SOLAR_TERMS_INDEX["Winter Commences"] = 21;
+    SOLAR_TERMS_INDEX["Light Snow"] = 22;
+    SOLAR_TERMS_INDEX["Heavy Snow"] = 23;
+    SOLAR_TERMS_INDEX["Winter Solstice"] = 24;
+
+    # variables
+    errorMessage = "";
+    chineseYear = GREGORIAN_CALENDAR_1999_1_1_CHINESE_YEAR;
+    chineseMonth = GREGORIAN_CALENDAR_1999_1_1_CHINESE_MONTH;
+    chineseDay = 0;
+    chineseLeapMonth = 0;
+    firstChineseYearGregorianYear = FIRST_YEAR;
+    firstChineseYearGregorianMonth = 0;
+    firstChineseYearGregorianDay = 0;
+    column1StartIndex = 1;
+    column1Length = 15;
+    column2StartIndex = 16;
+    column2Length = 20;
+    column3StartIndex = 36;
+    column3Length = 15;
+    column4StartIndex = 51;
+    column4Length = 20;
+}
+{
+    # check whether the provided data is invalid
+    if (index($0, "Error: ") == 1 || errorMessage != "") {
+        errorMessage = $0;
+        next;
+    }
+
+    # calculate the length of each column from the header line
+    if (index($0, "Gregorian date") == 1) {
+        column2StartIndex = index($0, "Lunar date");
+        column1Length = column2StartIndex - column1StartIndex;
+        column3StartIndex = index($0, "Day-of-week");
+        column2Length = column3StartIndex - column2StartIndex;
+        column4StartIndex = index($0, "Solar terms");
+        column3Length = column4StartIndex - column3StartIndex;
+        next;
+    }
+
+    # parse the gregorian date
+    col1 = rtrim(substr($0, column1StartIndex, column1Length));
+    col2 = rtrim(substr($0, column2StartIndex, column2Length));
+    col3 = rtrim(substr($0, column3StartIndex, column3Length));
+    col4 = rtrim(substr($0, column4StartIndex, column4Length));
+
+    split(col1, gregorianDate, "/");
+    gregorianYear = int(gregorianDate[1]);
+    gregorianMonth = int(gregorianDate[2]);
+    gregorianDay = int(gregorianDate[3]);
+
+    # parse Chinese day and calculate the Chinese year and month
+    nextChineseYear = chineseYear;
+    nextChineseMonth = chineseMonth;
+    nextChineseDay = chineseDay;
+
+    if (index(col2, " Lunar month") > 0) {
+        nextChineseMonth = substr(col2, 1, (index(col2, " Lunar month") - 3));
+        nextChineseDay = 1;
+
+        if (nextChineseMonth == 1) {
+            nextChineseYear++;
+        }
+    } else if (index(col2, " Lunar Month") > 0) {
+        nextChineseMonth = substr(col2, 1, (index(col2, " Lunar Month") - 3));
+        nextChineseDay = 1;
+
+        if (nextChineseMonth == 1) {
+            nextChineseYear++;
+        }
+    } else {
+        nextChineseDay = col2;
+    }
+
+    # store the previous month info
+    if (nextChineseDay == 1) {
+        if (chineseLeapMonth == 0) {
+            chineseMonthDayCountMap[chineseYear][chineseMonth] = chineseDay;
+        } else {
+            chineseLeapMonthMap[chineseYear] = chineseMonth;
+            chineseLeapMonthDayCount[chineseYear] = chineseDay;
+        }
+
+        if (nextChineseMonth == chineseMonth) {
+            chineseLeapMonth = 1;
+        } else {
+            chineseLeapMonth = 0;
+        }
+    }
+
+    if (nextChineseDay == 1 && nextChineseMonth == 1 && nextChineseYear == FIRST_YEAR && chineseLeapMonth == 0) {
+        firstChineseYearGregorianMonth = gregorianMonth;
+        firstChineseYearGregorianDay = gregorianDay;
+    }
+
+    gregorianDayBase36 = BASE36_CHARS[gregorianDay + 1];
+    solarTermIndex = SOLAR_TERMS_INDEX[col4];
+    solarTermsMap[gregorianYear][solarTermIndex] = gregorianDayBase36;
+
+    chineseYear = nextChineseYear;
+    chineseMonth = nextChineseMonth;
+    chineseDay = nextChineseDay;
+}
+END {
+    if (errorMessage != "") {
+        print errorMessage;
+        exit;
+    }
+
+    # output contants
+    printf "export const SUPPORTED_MIN_YEAR: number = %s;\n", FIRST_YEAR;
+    printf "export const SUPPORTED_MAX_YEAR: number = %s;\n", LAST_YEAR;
+    print "";
+    printf "export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_YEAR: number = %s;\n", firstChineseYearGregorianYear;
+    printf "export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_MONTH: number = %s;\n", firstChineseYearGregorianMonth;
+    printf "export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_DAY: number = %s;\n", firstChineseYearGregorianDay;
+    print "";
+
+    # output compacted data table of chinese years
+    print "export const CHINESE_YEAR_DATA: number[] = [";
+    for (year = FIRST_YEAR; year <= LAST_YEAR; year++) {
+        printf "    "
+
+        # each element is a hexadecimal representing a 17-bit integer:
+        # - bits 0-11: month days from month 1 to month 12 (0 means 29 days, 1 means 30 days)
+        # - bits 12-15: leap month (0 means no leap month, 1-12 means the leap month)
+        # - bit  16: leap month days (0 means 29 days, 1 means 30 days)
+        data = 0;
+
+        for (month = 1; month <= CHINESE_CALENDAR_MONTH_COUNT; month++) {
+            dayCount = chineseMonthDayCountMap[year][month];
+            bigMonth = 0;
+
+            if (dayCount == CHINESE_CALENDAR_BIG_MONTH_DAYS) {
+                bigMonth = 1;
+            }
+
+            data = lshift(data, 1);
+            data = or(data, bigMonth);
+        }
+
+        leapMonth = chineseLeapMonthMap[year];
+
+        if (leapMonth == "") {
+            leapMonth = 0;
+        }
+
+        data = lshift(data, 4);
+        data = or(data, leapMonth);
+
+        data = lshift(data, 1);
+        if (leapMonth > 0) {
+            bigMonth = 0;
+
+            if (chineseLeapMonthDayCount[year] == CHINESE_CALENDAR_BIG_MONTH_DAYS) {
+                bigMonth = 1;
+            }
+
+            data = or(data, bigMonth);
+        }
+
+        printf "0x%x, // %s\n", data, year;
+    }
+    print "];";
+
+    print "";
+
+    # output compacted data table of solar terms
+    # each element is a string of 24 base-36 (0-9A-Z) characters, each character represents the day in month (1-based) of the corresponding solar term
+    print "export const GREGORIAN_YEAR_CHINESE_SOLAR_TERMS_DATA: string[] = [";
+    for (year = FIRST_YEAR; year <= LAST_YEAR; year++) {
+        printf "    %c", SINGLE_QUOTE_CHAR;
+        for (i = 1; i <= CHINESE_CALENDAR_SOLAR_TERMS_COUNT; i++) {
+            printf solarTermsMap[year][i];
+        }
+        printf "%c, // %s\n", SINGLE_QUOTE_CHAR, year;
+    }
+    print "];";
+}'
+ */
+
+// The following lines are generated by the above bash scripts
+export const SUPPORTED_MIN_YEAR: number = 1999;
+export const SUPPORTED_MAX_YEAR: number = 2100;
+
+export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_YEAR: number = 1999;
+export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_MONTH: number = 2;
+export const CHINESE_CALENDAR_FIRST_DAY_GREGORIAN_DAY: number = 16;
+
+export const CHINESE_YEAR_DATA: number[] = [
+    0x125c0, // 1999
+    0x192c0, // 2000
+    0x1b2a8, // 2001
+    0x1a940, // 2002
+    0x1b4a0, // 2003
+    0xeaa4, // 2004
+    0xad40, // 2005
+    0x1576e, // 2006
+    0x4ba0, // 2007
+    0x125a0, // 2008
+    0x1956a, // 2009
+    0x152a0, // 2010
+    0x16940, // 2011
+    0x17548, // 2012
+    0x15aa0, // 2013
+    0xabb2, // 2014
+    0x9740, // 2015
+    0x14b60, // 2016
+    0xa2ed, // 2017
+    0xa560, // 2018
+    0x15260, // 2019
+    0xf2a8, // 2020
+    0xd540, // 2021
+    0x15aa0, // 2022
+    0xb6a4, // 2023
+    0x96c0, // 2024
+    0x14dcc, // 2025
+    0x149c0, // 2026
+    0x1a4c0, // 2027
+    0x1d4ca, // 2028
+    0x1aa60, // 2029
+    0xb540, // 2030
+    0xed46, // 2031
+    0x12da0, // 2032
+    0x95f6, // 2033
+    0x95a0, // 2034
+    0x149a0, // 2035
+    0x1a16d, // 2036
+    0x1a4a0, // 2037
+    0x1aa40, // 2038
+    0x1ba8a, // 2039
+    0x16b40, // 2040
+    0xada0, // 2041
+    0xab64, // 2042
+    0x9360, // 2043
+    0x14aee, // 2044
+    0x14960, // 2045
+    0x154a0, // 2046
+    0x164ab, // 2047
+    0xda40, // 2048
+    0x15b40, // 2049
+    0x96c7, // 2050
+    0x126e0, // 2051
+    0x93f0, // 2052
+    0x92e0, // 2053
+    0xc960, // 2054
+    0xd14d, // 2055
+    0x1d4a0, // 2056
+    0xd540, // 2057
+    0x14d89, // 2058
+    0x155c0, // 2059
+    0x125c0, // 2060
+    0x1a5c6, // 2061
+    0x192c0, // 2062
+    0x1aaae, // 2063
+    0x1a940, // 2064
+    0x1b4a0, // 2065
+    0xbaaa, // 2066
+    0xad40, // 2067
+    0x14da0, // 2068
+    0xaba8, // 2069
+    0xa5a0, // 2070
+    0x15370, // 2071
+    0x152a0, // 2072
+    0x16940, // 2073
+    0x16d4c, // 2074
+    0x15aa0, // 2075
+    0xab40, // 2076
+    0x15748, // 2077
+    0x14b60, // 2078
+    0xa560, // 2079
+    0x164e6, // 2080
+    0xd260, // 2081
+    0xe66e, // 2082
+    0xd540, // 2083
+    0x15aa0, // 2084
+    0x96ab, // 2085
+    0x96c0, // 2086
+    0x14ae0, // 2087
+    0xa9c8, // 2088
+    0x1a2c0, // 2089
+    0x1d2d0, // 2090
+    0x1aa40, // 2091
+    0x1b540, // 2092
+    0xd54d, // 2093
+    0xada0, // 2094
+    0x95c0, // 2095
+    0x153a8, // 2096
+    0x145a0, // 2097
+    0x1a2a0, // 2098
+    0x1e4a4, // 2099
+    0x1aa40, // 2100
+];
+
+export const GREGORIAN_YEAR_CHINESE_SOLAR_TERMS_DATA: string[] = [
+    '6K4J6L5K6L6M7N8N8N9O8N7M', // 1999
+    '6L4J5K4K5L5L7M7N7N8N7M7L', // 2000
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2001
+    '5K4J6L5K6L6L7N8N8N8N7M7M', // 2002
+    '6K4J6L5K6L6M7N8N8N9O8N7M', // 2003
+    '6L4J5K4K5L5L7M7N7N8N7M7L', // 2004
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2005
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2006
+    '6K4J6L5K6L6M7N8N8N9O8N7M', // 2007
+    '6L4J5K4K5L5L7M7N7M8N7M7L', // 2008
+    '5K4I5K4K5L5L7N7N7N8N7M7M', // 2009
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2010
+    '6K4J6L5K6L6M7N8N8N8O8N7M', // 2011
+    '6L4J5K4K5K5L7M7N7M8N7M7L', // 2012
+    '5K4I5K4K5L5L7M7N7N8N7M7M', // 2013
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2014
+    '6K4J6L5K6L6M7N8N8N8O8M7M', // 2015
+    '6K4J5K4J5K5L7M7N7M8N7M7L', // 2016
+    '5K3I5K4K5L5L7M7N7N8N7M7M', // 2017
+    '5K4J5L5K5L6L7N7N8N8N7M7M', // 2018
+    '5K4J6L5K6L6L7N8N8N8O8M7M', // 2019
+    '6K4J5K4J5K5L6M7M7M8N7M7L', // 2020
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2021
+    '5K4J5K5K5L6L7N7N7N8N7M7M', // 2022
+    '5K4J6L5K6L6L7N8N8N8O8M7M', // 2023
+    '6K4J5K4J5K5L6M7M7M8N7M6L', // 2024
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2025
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2026
+    '5K4J6L5K6L6L7N8N8N8N7M7M', // 2027
+    '6K4J5K4J5K5L6M7M7M8N7M6L', // 2028
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2029
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2030
+    '5K4J6L5K6L6L7N8N8N8N7M7M', // 2031
+    '6K4J5K4J5K5L6M7M7M8N7M6L', // 2032
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2033
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2034
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2035
+    '6K4J5K4J5K5L6M7M7M8N7M6L', // 2036
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2037
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2038
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2039
+    '6K4J5K4J5K5L6M7M7M8N7M6L', // 2040
+    '5K3I5K4K5K5L7M7N7M8N7M7L', // 2041
+    '5K4I5K4K5L5L7N7N7N8N7M7M', // 2042
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2043
+    '6K4J5K4J5K5L6M7M7M7N7M6L', // 2044
+    '5K3I5K4J5K5L7M7N7M8N7M7L', // 2045
+    '5K4I5K4K5L5L7M7N7N8N7M7M', // 2046
+    '5K4J6L5K5L6L7N7N8N8N7M7M', // 2047
+    '6K4J5K4J5K5K6M7M7M7N7L6L', // 2048
+    '5J3I5K4J5K5L6M7M7M8N7M7L', // 2049
+    '5K3I5K4K5L5L7M7N7N8N7M7M', // 2050
+    '5K4J5K5K5L6L7N7N7N8N7M7M', // 2051
+    '5K4J5K4J5K5K6M7M7M7N7L6L', // 2052
+    '5J3I5K4J5K5L6M7M7M8N7M7L', // 2053
+    '5K3I5K4K5L5L7M7N7N8N7M7M', // 2054
+    '5K4J5K5K5L5L7N7N7N8N7M7M', // 2055
+    '5K4J5K4J5K5K6M7M7M7N7L6L', // 2056
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2057
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2058
+    '5K4J5K5K5L5L7N7N7N8N7M7M', // 2059
+    '5K4J5K4J5K5K6M7M7M7M6L6L', // 2060
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2061
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2062
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2063
+    '5K4J5K4J5K5K6M7M7M7M6L6L', // 2064
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2065
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2066
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2067
+    '5K4J5K4J4K5K6M6M7M7M6L6L', // 2068
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2069
+    '5K3I5K4K5K5L7M7N7M8N7M7L', // 2070
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2071
+    '5K4J5K4J4K5K6M6M7M7M6L6L', // 2072
+    '5J3I5K4J5K5L6M7M7M7N7M6L', // 2073
+    '5K3I5K4K5K5L7M7N7M8N7M7L', // 2074
+    '5K4I5K4K5L5L7M7N7N8N7M7M', // 2075
+    '5K4J5K4J4K5K6M6M7M7M6L6L', // 2076
+    '5J3I5K4J5K5L6M7M7M7N7M6L', // 2077
+    '5K3I5K4J5K5L6M7N7M8N7M7L', // 2078
+    '5K4I5K4K5L5L7M7N7N8N7M7M', // 2079
+    '5K4J5K4J4K5K6M6M7M7M6L6L', // 2080
+    '5J3I5K4J5K5K6M7M7M7N7L6L', // 2081
+    '5K3I5K4J5K5L6M7M7M8N7M7L', // 2082
+    '5K3I5K4K5L5L7M7N7N8N7M7M', // 2083
+    '5K4J4J4J4K5K6M6M6M7M6L6L', // 2084
+    '4J3I5K4J5K5K6M7M7M7N7L6L', // 2085
+    '5J3I5K4J5K5L6M7M7M8N7M7L', // 2086
+    '5K3I5K4K5L5L7M7N7N8N7M7M', // 2087
+    '5K4J4J4J4K4K6M6M6M7M6L6L', // 2088
+    '4J3I5K4J5K5K6M7M7M7N7L6L', // 2089
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2090
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2091
+    '5K4J4J4J4K4K6M6M6M7M6L6L', // 2092
+    '4J3I5K4J5K5K6M7M7M7M6L6L', // 2093
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2094
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2095
+    '5K4I4J4J4K4K6M6M6M7M6L6L', // 2096
+    '4J3I5K4J5K5K6M6M7M7M6L6L', // 2097
+    '5J3I5K4J5K5L6M7M7M8N7M6L', // 2098
+    '5K3I5K4K5L5L7M7N7N8N7M7L', // 2099
+    '5K4I5K5K5L5L7N7N7N8N7M7M', // 2100
+];