libphobos/libdruntime/rt/adi.d - gcc - Git at Google

 /**
  * Implementation of dynamic array property support routines.
  *
  * Copyright: Copyright Digital Mars 2000 - 2015.
  * License: Distributed under the
  *      $(LINK2 http://www.boost.org/LICENSE_1_0.txt, Boost Software License 1.0).
  *    (See accompanying file LICENSE)
  * Authors:   Walter Bright
  * Source: $(DRUNTIMESRC src/rt/_adi.d)
  */

 module rt.adi;

 //debug=adi;            // uncomment to turn on debugging printf's

 private
 {
     debug(adi) import core.stdc.stdio;
     import core.stdc.string;
     import core.stdc.stdlib;
     import core.memory;
     import rt.util.utf;

     extern (C) void[] _adSort(void[] a, TypeInfo ti);
 }

 private dchar[] mallocUTF32(C)(in C[] s)
 {
     size_t j = 0;
     auto p = cast(dchar*)malloc(dchar.sizeof * s.length);
     auto r = p[0..s.length]; // r[] will never be longer than s[]
     foreach (dchar c; s)
         r[j++] = c;
     return r[0 .. j];
 }

 /**********************************************
  * Sort array of chars.
  */

 extern (C) char[] _adSortChar(char[] a)
 {
     if (a.length > 1)
     {
         auto da = mallocUTF32(a);
         _adSort(*cast(void[]*)&da, typeid(da[0]));
         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;
         }
         free(da.ptr);
     }
     return a;
 }

 /**********************************************
  * Sort array of wchars.
  */

 extern (C) wchar[] _adSortWchar(wchar[] a)
 {
     if (a.length > 1)
     {
         auto da = mallocUTF32(a);
         _adSort(*cast(void[]*)&da, typeid(da[0]));
         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;
         }
         free(da.ptr);
     }
     return a;
 }

 /***************************************
  * Support for array equality test.
  * Returns:
  *      1       equal
  *      0       not equal
  */

 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
     auto sz = ti.tsize;
     auto p1 = a1.ptr;
     auto p2 = a2.ptr;

     if (sz == 1)
         // We should really have a ti.isPOD() check for this
         return (memcmp(p1, p2, a1.length) == 0);

     for (size_t i = 0; i < a1.length; i++)
     {
         if (!ti.equals(p1 + i * sz, p2 + i * sz))
             return 0; // not equal
     }
     return 1; // equal
 }

 extern (C) int _adEq2(void[] a1, void[] a2, TypeInfo ti)
 {
     debug(adi) printf("_adEq2(a1.length = %d, a2.length = %d)\n", a1.length, a2.length);
     if (a1.length != a2.length)
         return 0;               // not equal
     if (!ti.equals(&a1, &a2))
         return 0;
     return 1;
 }
 unittest
 {
     debug(adi) printf("array.Eq unittest\n");

     auto a = "hello"c;

     assert(a != "hel");
     assert(a != "helloo");
     assert(a != "betty");
     assert(a == "hello");
     assert(a != "hxxxx");

     float[] fa = [float.nan];
     assert(fa != fa);
 }

 /***************************************
  * Support for array compare test.
  */

 extern (C) int _adCmp(void[] a1, void[] a2, TypeInfo ti)
 {
     debug(adi) printf("adCmp()\n");
     auto len = a1.length;
     if (a2.length < len)
         len = a2.length;
     auto sz = ti.tsize;
     void *p1 = a1.ptr;
     void *p2 = a2.ptr;

     if (sz == 1)
     {   // We should really have a ti.isPOD() check for this
         auto c = memcmp(p1, p2, len);
         if (c)
             return c;
     }
     else
     {
         for (size_t i = 0; i < len; i++)
         {
             auto c = ti.compare(p1 + i * sz, p2 + i * sz);
             if (c)
                 return c;
         }
     }
     if (a1.length == a2.length)
         return 0;
     return (a1.length > a2.length) ? 1 : -1;
 }

 extern (C) int _adCmp2(void[] a1, void[] a2, TypeInfo ti)
 {
     debug(adi) printf("_adCmp2(a1.length = %d, a2.length = %d)\n", a1.length, a2.length);
     return ti.compare(&a1, &a2);
 }
 unittest
 {
     debug(adi) printf("array.Cmp unittest\n");

     auto 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");
     assert(a <  "я");
 }

 /***************************************
  * Support for array compare test.
  */

 extern (C) int _adCmpChar(void[] a1, void[] a2)
 {
   version (D_InlineAsm_X86)
   {
     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
   {
     debug(adi) printf("adCmpChar()\n");
     auto len = a1.length;
     if (a2.length < len)
         len = a2.length;
     auto 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");

     auto 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");
 }
	/**
	* Implementation of dynamic array property support routines.
	*
	* Copyright: Copyright Digital Mars 2000 - 2015.
	* License: Distributed under the
	* $(LINK2 http://www.boost.org/LICENSE_1_0.txt, Boost Software License 1.0).
	* (See accompanying file LICENSE)
	* Authors: Walter Bright
	* Source: $(DRUNTIMESRC src/rt/_adi.d)
	*/

	module rt.adi;

	//debug=adi; // uncomment to turn on debugging printf's

	private
	{
	debug(adi) import core.stdc.stdio;
	import core.stdc.string;
	import core.stdc.stdlib;
	import core.memory;
	import rt.util.utf;

	extern (C) void[] _adSort(void[] a, TypeInfo ti);
	}

	private dchar[] mallocUTF32(C)(in C[] s)
	{
	size_t j = 0;
	auto p = cast(dchar)malloc(dchar.sizeof s.length);
	auto r = p[0..s.length]; // r[] will never be longer than s[]
	foreach (dchar c; s)
	r[j++] = c;
	return r[0 .. j];
	}

	/**********************************************
	* Sort array of chars.
	*/

	extern (C) char[] _adSortChar(char[] a)
	{
	if (a.length > 1)
	{
	auto da = mallocUTF32(a);
	_adSort(cast(void[])&da, typeid(da[0]));
	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;
	}
	free(da.ptr);
	}
	return a;
	}

	/**********************************************
	* Sort array of wchars.
	*/

	extern (C) wchar[] _adSortWchar(wchar[] a)
	{
	if (a.length > 1)
	{
	auto da = mallocUTF32(a);
	_adSort(cast(void[])&da, typeid(da[0]));
	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;
	}
	free(da.ptr);
	}
	return a;
	}

	/***************************************
	* Support for array equality test.
	* Returns:
	* 1 equal
	* 0 not equal
	*/

	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
	auto sz = ti.tsize;
	auto p1 = a1.ptr;
	auto p2 = a2.ptr;

	if (sz == 1)
	// We should really have a ti.isPOD() check for this
	return (memcmp(p1, p2, a1.length) == 0);

	for (size_t i = 0; i < a1.length; i++)
	{
	if (!ti.equals(p1 + i * sz, p2 + i * sz))
	return 0; // not equal
	}
	return 1; // equal
	}

	extern (C) int _adEq2(void[] a1, void[] a2, TypeInfo ti)
	{
	debug(adi) printf("_adEq2(a1.length = %d, a2.length = %d)\n", a1.length, a2.length);
	if (a1.length != a2.length)
	return 0; // not equal
	if (!ti.equals(&a1, &a2))
	return 0;
	return 1;
	}
	unittest
	{
	debug(adi) printf("array.Eq unittest\n");

	auto a = "hello"c;

	assert(a != "hel");
	assert(a != "helloo");
	assert(a != "betty");
	assert(a == "hello");
	assert(a != "hxxxx");

	float[] fa = [float.nan];
	assert(fa != fa);
	}

	/***************************************
	* Support for array compare test.
	*/

	extern (C) int _adCmp(void[] a1, void[] a2, TypeInfo ti)
	{
	debug(adi) printf("adCmp()\n");
	auto len = a1.length;
	if (a2.length < len)
	len = a2.length;
	auto sz = ti.tsize;
	void *p1 = a1.ptr;
	void *p2 = a2.ptr;

	if (sz == 1)
	{ // We should really have a ti.isPOD() check for this
	auto c = memcmp(p1, p2, len);
	if (c)
	return c;
	}
	else
	{
	for (size_t i = 0; i < len; i++)
	{
	auto c = ti.compare(p1 + i * sz, p2 + i * sz);
	if (c)
	return c;
	}
	}
	if (a1.length == a2.length)
	return 0;
	return (a1.length > a2.length) ? 1 : -1;
	}

	extern (C) int _adCmp2(void[] a1, void[] a2, TypeInfo ti)
	{
	debug(adi) printf("_adCmp2(a1.length = %d, a2.length = %d)\n", a1.length, a2.length);
	return ti.compare(&a1, &a2);
	}
	unittest
	{
	debug(adi) printf("array.Cmp unittest\n");

	auto 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");
	assert(a < "я");
	}

	/***************************************
	* Support for array compare test.
	*/

	extern (C) int _adCmpChar(void[] a1, void[] a2)
	{
	version (D_InlineAsm_X86)
	{
	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
	{
	debug(adi) printf("adCmpChar()\n");
	auto len = a1.length;
	if (a2.length < len)
	len = a2.length;
	auto 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");

	auto 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");
	}