Mercurial > projects > ldc
view runtime/internal/adi.d @ 1638:0de4525a9ed6
Apply workaround for #395 by klickverbot.
| author | Christian Kamm <kamm incasoftware de> |
|---|---|
| date | Mon, 08 Mar 2010 20:06:08 +0100 |
| parents | e78e1d559a76 |
| children |
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//_ adi.d /** * Part of the D programming language runtime library. * Dynamic array property support routines */ /* * Copyright (C) 2000-2006 by Digital Mars, www.digitalmars.com * Written by Walter Bright * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, in both source and binary form, subject to the following * restrictions: * * o The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * o Altered source versions must be plainly marked as such, and must not * be misrepresented as being the original software. * o This notice may not be removed or altered from any source * distribution. */ /* * Modified by Sean Kelly <sean@f4.ca> for use with Tango. */ //debug=adi; // uncomment to turn on debugging printf's private { import tango.stdc.string; import tango.stdc.stdlib; import util.utf; enum BlkAttr : uint { FINALIZE = 0b0000_0001, NO_SCAN = 0b0000_0010, NO_MOVE = 0b0000_0100, ALL_BITS = 0b1111_1111 } extern (C) void* gc_malloc( size_t sz, uint ba = 0 ); extern (C) void* gc_calloc( size_t sz, uint ba = 0 ); extern (C) void gc_free( void* p ); } /********************************************** * Reverse array of chars. * Handled separately because embedded multibyte encodings should not be * reversed. */ extern (C) char[] _adReverseChar(char[] a) { bool hadErrors = false; if (a.length > 1) { char[6] tmp; char[6] tmplo; char* lo = a.ptr; char* hi = &a[length - 1]; while (lo < hi) { auto clo = *lo; auto chi = *hi; debug(adi) printf("lo = %d, hi = %d\n", lo, hi); if (clo <= 0x7F && chi <= 0x7F) { debug(adi) printf("\tascii\n"); *lo = chi; *hi = clo; lo++; hi--; continue; } uint stridelo = UTF8stride[clo]; if (stridelo > 6) { // invalid UTF-8 0xFF stridelo = 1; hadErrors=true; } uint stridehi = 1; while ((chi & 0xC0) == 0x80 && hi >= lo) { chi = *--hi; stridehi++; } if (lo >= hi) { if (lo > hi) { hadErrors = true; } break; } if (stridehi > 6) { hadErrors = true; stridehi = 6; } debug(adi) printf("\tstridelo = %d, stridehi = %d\n", stridelo, stridehi); if (stridelo == stridehi) { memcpy(tmp.ptr, lo, stridelo); memcpy(lo, hi, stridelo); memcpy(hi, tmp.ptr, stridelo); lo += stridelo; hi--; continue; } /* Shift the whole array. This is woefully inefficient */ memcpy(tmp.ptr, hi, stridehi); memcpy(tmplo.ptr, lo, stridelo); memmove(lo + stridehi, lo + stridelo , cast(size_t)(hi - lo) - stridelo); memcpy(lo, tmp.ptr, stridehi); memcpy(hi + stridehi - stridelo, tmplo.ptr, stridelo); lo += stridehi; hi = hi - 1 + (stridehi - stridelo); } } if (hadErrors) throw new Exception("invalid UTF-8 sequence",__FILE__,__LINE__); return a; } unittest { char[] a = "abcd"c; char[] r = a.dup.reverse; //writefln(r); assert(r == "dcba"); a = "a\u1235\u1234c"; //writefln(a); r = a.dup.reverse; //writefln(r); assert(r == "c\u1234\u1235a"); a = "ab\u1234c"; //writefln(a); r = a.dup.reverse; //writefln(r); assert(r == "c\u1234ba"); a = "\u3026\u2021\u3061\n"; r = a.dup.reverse; assert(r == "\n\u3061\u2021\u3026"); } /********************************************** * Reverse array of wchars. * Handled separately because embedded multiword encodings should not be * reversed. */ extern (C) wchar[] _adReverseWchar(wchar[] a) { bool hadErrors = false; if (a.length > 1) { wchar[2] tmp; wchar* lo = a.ptr; wchar* hi = &a[length - 1]; while (lo < hi) { auto clo = *lo; auto chi = *hi; if ((clo < 0xD800 || clo > 0xDFFF) && (chi < 0xD800 || chi > 0xDFFF)) { *lo = chi; *hi = clo; lo++; hi--; continue; } int stridelo = 1 + (clo >= 0xD800 && clo <= 0xDBFF); int stridehi = 1; if (chi >= 0xDC00 && chi <= 0xDFFF) { chi = *--hi; stridehi++; } if (lo >= hi) { if (lo > hi) { hadErrors = true; } break; } if (stridelo == stridehi) { int stmp; assert(stridelo == 2); assert(stmp.sizeof == 2 * (*lo).sizeof); stmp = *cast(int*)lo; *cast(int*)lo = *cast(int*)hi; *cast(int*)hi = stmp; lo += stridelo; hi--; continue; } /* Shift the whole array. This is woefully inefficient */ memcpy(tmp.ptr, hi, stridehi * wchar.sizeof); memcpy(hi + stridehi - stridelo, lo, stridelo * wchar.sizeof); memmove(lo + stridehi, lo + stridelo , (hi - (lo + stridelo)) * wchar.sizeof); memcpy(lo, tmp.ptr, stridehi * wchar.sizeof); lo += stridehi; hi = hi - 1 + (stridehi - stridelo); } } if (hadErrors) throw new Exception("invalid UTF-8 sequence",__FILE__,__LINE__); return a; } unittest { wchar[] a = "abcd"; wchar[] r; r = a.dup.reverse; assert(r == "dcba"); a = "a\U00012356\U00012346c"; r = a.dup.reverse; assert(r == "c\U00012346\U00012356a"); a = "ab\U00012345c"; r = a.dup.reverse; assert(r == "c\U00012345ba"); } /********************************************** * Support for array.reverse property. * The actual type is painted on the return value by the frontend * Given and returned length are number of elements */ extern (C) void[] _adReverse(void[] a, size_t szelem) out (result) { assert(result.ptr is a.ptr); } body { if (a.length >= 2) { byte* tmp; byte[16] buffer; void* lo = a.ptr; void* hi = a.ptr + (a.length - 1) * szelem; tmp = buffer.ptr; if (szelem > 16) { //version (Win32) //tmp = cast(byte*) alloca(szelem); //else tmp = cast(byte*) gc_malloc(szelem); } for (; lo < hi; lo += szelem, hi -= szelem) { memcpy(tmp, lo, szelem); memcpy(lo, hi, szelem); memcpy(hi, tmp, szelem); } version (Win32) { } else { //if (szelem > 16) // BUG: bad code is generate for delete pointer, tries // to call delclass. //gc_free(tmp); } } return a.ptr[0 .. a.length]; } unittest { debug(adi) printf("array.reverse.unittest\n"); int[] a = new int[5]; int[] b; size_t i; for (i = 0; i < 5; i++) a[i] = i; b = a.reverse; assert(b is a); for (i = 0; i < 5; i++) assert(a[i] == 4 - i); struct X20 { // More than 16 bytes in size int a; int b, c, d, e; } X20[] c = new X20[5]; X20[] d; for (i = 0; i < 5; i++) { c[i].a = i; c[i].e = 10; } d = c.reverse; assert(d is c); for (i = 0; i < 5; i++) { assert(c[i].a == 4 - i); assert(c[i].e == 10); } } /********************************************** * Sort array of chars. */ extern (C) char[] _adSortChar(char[] a) { if (a.length > 1) { dchar[] da = toUTF32(a); da.sort; size_t i = 0; foreach (dchar d; da) { char[4] buf; auto t = toUTF8(buf, d); a[i .. i + t.length] = t[]; i += t.length; } delete da; } return a; } /********************************************** * Sort array of wchars. */ extern (C) wchar[] _adSortWchar(wchar[] a) { if (a.length > 1) { dchar[] da = toUTF32(a); da.sort; size_t i = 0; foreach (dchar d; da) { wchar[2] buf; auto t = toUTF16(buf, d); a[i .. i + t.length] = t[]; i += t.length; } delete da; } return a; } /*************************************** * Support for array equality test. * The actual type is painted on the return value by the frontend * Given lengths are number of elements */ extern (C) int _adEq(void[] a1, void[] a2, TypeInfo ti) { debug(adi) printf("_adEq(a1.length = %d, a2.length = %d)\n", a1.length, a2.length); if (a1.length != a2.length) return 0; // not equal else if (a1.ptr == a2.ptr) return 1; // equal // let typeinfo decide return ti.equals(&a1, &a2); } unittest { debug(adi) printf("array.Eq unittest\n"); char[] a = "hello"c; assert(a != "hel"); assert(a != "helloo"); assert(a != "betty"); assert(a == "hello"); assert(a != "hxxxx"); } /*************************************** * Support for array compare test. * The actual type is painted on the return value by the frontend * Given lengths are number of elements */ extern (C) int _adCmp(void[] a1, void[] a2, TypeInfo ti) { debug(adi) printf("adCmp()\n"); if (a1.ptr == a2.ptr && a1.length == a2.length) return 0; auto len = a1.length; if (a2.length < len) len = a2.length; // let typeinfo decide return ti.compare(&a1, &a2); } unittest { debug(adi) printf("array.Cmp unittest\n"); char[] a = "hello"c; assert(a > "hel"); assert(a >= "hel"); assert(a < "helloo"); assert(a <= "helloo"); assert(a > "betty"); assert(a >= "betty"); assert(a == "hello"); assert(a <= "hello"); assert(a >= "hello"); } /*************************************** * Support for array compare test. * The actual type is painted on the return value by the frontend * Given lengths are number of elements */ extern (C) int _adCmpChar(void[] a1, void[] a2) { version(D_InlineAsm_X86) { //version = Asm86; } version (Asm86) { asm { naked ; push EDI ; push ESI ; mov ESI,a1+4[4+ESP] ; mov EDI,a2+4[4+ESP] ; mov ECX,a1[4+ESP] ; mov EDX,a2[4+ESP] ; cmp ECX,EDX ; jb GotLength ; mov ECX,EDX ; GotLength: cmp ECX,4 ; jb DoBytes ; // Do alignment if neither is dword aligned test ESI,3 ; jz Aligned ; test EDI,3 ; jz Aligned ; DoAlign: mov AL,[ESI] ; //align ESI to dword bounds mov DL,[EDI] ; cmp AL,DL ; jnz Unequal ; inc ESI ; inc EDI ; test ESI,3 ; lea ECX,[ECX-1] ; jnz DoAlign ; Aligned: mov EAX,ECX ; // do multiple of 4 bytes at a time shr ECX,2 ; jz TryOdd ; repe ; cmpsd ; jnz UnequalQuad ; TryOdd: mov ECX,EAX ; DoBytes: // if still equal and not end of string, do up to 3 bytes slightly // slower. and ECX,3 ; jz Equal ; repe ; cmpsb ; jnz Unequal ; Equal: mov EAX,a1[4+ESP] ; mov EDX,a2[4+ESP] ; sub EAX,EDX ; pop ESI ; pop EDI ; ret ; UnequalQuad: mov EDX,[EDI-4] ; mov EAX,[ESI-4] ; cmp AL,DL ; jnz Unequal ; cmp AH,DH ; jnz Unequal ; shr EAX,16 ; shr EDX,16 ; cmp AL,DL ; jnz Unequal ; cmp AH,DH ; Unequal: sbb EAX,EAX ; pop ESI ; or EAX,1 ; pop EDI ; ret ; } } else { int len; int c; debug(adi) printf("adCmpChar()\n"); len = cast(int)a1.length; if (a2.length < len) len = cast(int)a2.length; c = memcmp(cast(char *)a1.ptr, cast(char *)a2.ptr, len); if (!c) c = cast(int)a1.length - cast(int)a2.length; return c; } } unittest { debug(adi) printf("array.CmpChar unittest\n"); char[] a = "hello"c; assert(a > "hel"); assert(a >= "hel"); assert(a < "helloo"); assert(a <= "helloo"); assert(a > "betty"); assert(a >= "betty"); assert(a == "hello"); assert(a <= "hello"); assert(a >= "hello"); }