Mercurial > hg > CbC > CbC_gcc
view libphobos/libdruntime/core/internal/string.d @ 158:494b0b89df80 default tip
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 18:13:55 +0900 |
| parents | 1830386684a0 |
| children |
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/** * String manipulation and comparison utilities. * * Copyright: Copyright Sean Kelly 2005 - 2009. * License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0). * Authors: Sean Kelly, Walter Bright * Source: $(DRUNTIMESRC src/rt/util/_string.d) */ module core.internal.string; pure: nothrow: @nogc: alias UnsignedStringBuf = char[20]; char[] unsignedToTempString(ulong value, return char[] buf, uint radix = 10) @safe { size_t i = buf.length; do { ubyte x = cast(ubyte)(value % radix); value = value / radix; buf[--i] = cast(char)((x < 10) ? x + '0' : x - 10 + 'a'); } while (value); return buf[i .. $]; } private struct TempStringNoAlloc { // need to handle 65 bytes for radix of 2 with negative sign. private char[65] _buf; private ubyte _len; auto get() return { return _buf[$-_len..$]; } alias get this; } auto unsignedToTempString(ulong value, uint radix) @safe { TempStringNoAlloc result = void; result._len = unsignedToTempString(value, result._buf, radix).length & 0xff; return result; } unittest { UnsignedStringBuf buf; assert(0.unsignedToTempString(buf, 10) == "0"); assert(1.unsignedToTempString(buf, 10) == "1"); assert(12.unsignedToTempString(buf, 10) == "12"); assert(0x12ABCF .unsignedToTempString(buf, 16) == "12abcf"); assert(long.sizeof.unsignedToTempString(buf, 10) == "8"); assert(uint.max.unsignedToTempString(buf, 10) == "4294967295"); assert(ulong.max.unsignedToTempString(buf, 10) == "18446744073709551615"); // use stack allocated struct version assert(0.unsignedToTempString(10) == "0"); assert(1.unsignedToTempString(10) == "1"); assert(12.unsignedToTempString(10) == "12"); assert(0x12ABCF .unsignedToTempString(16) == "12abcf"); assert(long.sizeof.unsignedToTempString(10) == "8"); assert(uint.max.unsignedToTempString(10) == "4294967295"); assert(ulong.max.unsignedToTempString(10) == "18446744073709551615"); } alias SignedStringBuf = char[20]; char[] signedToTempString(long value, return char[] buf, uint radix) @safe { bool neg = value < 0; if (neg) value = cast(ulong)-value; auto r = unsignedToTempString(value, buf, radix); if (neg) { // about to do a slice without a bounds check auto trustedSlice(return char[] r) @trusted { assert(r.ptr > buf.ptr); return (r.ptr-1)[0..r.length+1]; } r = trustedSlice(r); r[0] = '-'; } return r; } auto signedToTempString(long value, uint radix) @safe { bool neg = value < 0; if (neg) value = cast(ulong)-value; auto r = unsignedToTempString(value, radix); if (neg) { r._len++; r.get()[0] = '-'; } return r; } unittest { SignedStringBuf buf; assert(0.signedToTempString(buf, 10) == "0"); assert(1.signedToTempString(buf, 10) == "1"); assert((-1).signedToTempString(buf, 10) == "-1"); assert(12.signedToTempString(buf, 10) == "12"); assert((-12).signedToTempString(buf, 10) == "-12"); assert(0x12ABCF .signedToTempString(buf, 16) == "12abcf"); assert((-0x12ABCF) .signedToTempString(buf, 16) == "-12abcf"); assert(long.sizeof.signedToTempString(buf, 10) == "8"); assert(int.max.signedToTempString(buf, 10) == "2147483647"); assert(int.min.signedToTempString(buf, 10) == "-2147483648"); assert(long.max.signedToTempString(buf, 10) == "9223372036854775807"); assert(long.min.signedToTempString(buf, 10) == "-9223372036854775808"); // use stack allocated struct version assert(0.signedToTempString(10) == "0"); assert(1.signedToTempString(10) == "1"); assert((-1).signedToTempString(10) == "-1"); assert(12.signedToTempString(10) == "12"); assert((-12).signedToTempString(10) == "-12"); assert(0x12ABCF .signedToTempString(16) == "12abcf"); assert((-0x12ABCF) .signedToTempString(16) == "-12abcf"); assert(long.sizeof.signedToTempString(10) == "8"); assert(int.max.signedToTempString(10) == "2147483647"); assert(int.min.signedToTempString(10) == "-2147483648"); assert(long.max.signedToTempString(10) == "9223372036854775807"); assert(long.min.signedToTempString(10) == "-9223372036854775808"); assert(long.max.signedToTempString(2) == "111111111111111111111111111111111111111111111111111111111111111"); assert(long.min.signedToTempString(2) == "-1000000000000000000000000000000000000000000000000000000000000000"); } /******************************** * Determine number of digits that will result from a * conversion of value to a string. * Params: * value = number to convert * radix = radix * Returns: * number of digits */ int numDigits(uint radix = 10)(ulong value) @safe { int n = 1; while (1) { if (value <= uint.max) { uint v = cast(uint)value; while (1) { if (v < radix) return n; if (v < radix * radix) return n + 1; if (v < radix * radix * radix) return n + 2; if (v < radix * radix * radix * radix) return n + 3; n += 4; v /= radix * radix * radix * radix; } } n += 4; value /= radix * radix * radix * radix; } } unittest { assert(0.numDigits == 1); assert(9.numDigits == 1); assert(10.numDigits == 2); assert(99.numDigits == 2); assert(100.numDigits == 3); assert(999.numDigits == 3); assert(1000.numDigits == 4); assert(9999.numDigits == 4); assert(10000.numDigits == 5); assert(99999.numDigits == 5); assert(uint.max.numDigits == 10); assert(ulong.max.numDigits == 20); assert(0.numDigits!2 == 1); assert(1.numDigits!2 == 1); assert(2.numDigits!2 == 2); assert(3.numDigits!2 == 2); } int dstrcmp( scope const char[] s1, scope const char[] s2 ) @trusted { immutable len = s1.length <= s2.length ? s1.length : s2.length; if (__ctfe) { foreach (const u; 0 .. len) { if (s1[u] != s2[u]) return s1[u] > s2[u] ? 1 : -1; } } else { import core.stdc.string : memcmp; const ret = memcmp( s1.ptr, s2.ptr, len ); if ( ret ) return ret; } return s1.length < s2.length ? -1 : (s1.length > s2.length); }