/*

 * Copyright (c) 2005

 *	Eric Anholt.  All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 * 1. Redistributions of source code must retain the above copyright

 *    notice, this list of conditions and the following disclaimer.

 * 2. Redistributions in binary form must reproduce the above copyright

 *    notice, this list of conditions and the following disclaimer in the

 *    documentation and/or other materials provided with the distribution.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND

 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE

 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS

 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)

 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT

 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY

 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF

 * SUCH DAMAGE.

 */

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#include <liboilclasses.h>

#include <liboilfunction.h>

#include <emmintrin.h>

#include "liboil/liboilcolorspace.h"

#define SSE_FUNCTION __attribute__((force_align_arg_pointer))

#ifdef ENABLE_BROKEN_IMPLS

union m128_int {

  __m128i m128;

  uint64_t ull[2];

};

static const struct _SSEData {

  union m128_int sse_16xff;

  union m128_int sse_8x0080;

} c = {

    .sse_16xff.ull =	{0xffffffffffffffffULL, 0xffffffffffffffffULL},

    .sse_8x0080.ull =	{0x0080008000800080ULL, 0x0080008000800080ULL},

};

#define MC(x) (c.sse_##x.m128)

/* non-SSE2 compositing support */

#define COMPOSITE_OVER(d,s,m) ((d) + (s) - oil_muldiv_255((d),(m)))

#define COMPOSITE_ADD(d,s) oil_clamp_255((d) + (s))

#define COMPOSITE_IN(s,m) oil_muldiv_255((s),(m))

/* This SSE2 code is based around operations on four pixels at a time.  The

 * exception is muldiv_255_sse2, which needs to expand the four pixels into

 * 2 sets of 2 pixels at 16 bits per channel each, for the purpose of doing

 * the appropriate rounding on division.

 */

/* Shuffles the given value such that the alpha for each pixel appears in each

 * channel of the pixel.

 */

SSE_FUNCTION static inline __m128i

argb_A_sse2(__m128i a)

{

#if 0

  /* Shift the alpha channel of each pixel into the low byte */

  a = _mm_srli_epi32(a, 24);

  /* Now, shift and or so we can get it into all the channels */

  a = _mm_or_si128(a, _mm_slli_epi32(a, 8));

  a = _mm_or_si128(a, _mm_slli_epi32(a, 16));

  return a;

#else

  /* Move the alpha channel into the low byte */

  a = _mm_srli_epi32(a, 24);

  /* Pack our four alpha channels down into the lower 32 bits */

  a = _mm_packus_epi16(a, _mm_setzero_si128());

  a = _mm_packus_epi16(a, _mm_setzero_si128());

  /* And expand it back out into four pixels of all channels the same */

  a = _mm_unpacklo_epi8(a, a);

  return _mm_unpacklo_epi16(a, a);

#endif

}

/* Multiplies the unpacked 16-bits-per-channel pixel data in a

 * channel-by-channel by b, and divides the result by 255, with rounding.

 */

SSE_FUNCTION static inline __m128i

inner_muldiv_255_sse2(__m128i a, __m128i b)

{

  __m128i ret;

  __m128i roundconst = MC(8x0080);

  ret = _mm_mullo_epi16(a, b);

  ret = _mm_adds_epu16(ret, roundconst);

  ret = _mm_adds_epu16(ret, _mm_srli_epi16(ret, 8));

  ret = _mm_srli_epi16(ret, 8);

  return ret;

}

SSE_FUNCTION static inline __m128i

muldiv_255_sse2(__m128i a, __m128i b)

{

  __m128i alow, blow, ahigh, bhigh, low, high;

  alow = _mm_unpacklo_epi8(a, _mm_setzero_si128());

  blow = _mm_unpacklo_epi8(b, _mm_setzero_si128());

  ahigh = _mm_unpackhi_epi8(a, _mm_setzero_si128());

  bhigh = _mm_unpackhi_epi8(b, _mm_setzero_si128());

  low = inner_muldiv_255_sse2(alow, blow);

  high = inner_muldiv_255_sse2(ahigh, bhigh);

  return _mm_packus_epi16(low, high);

}

SSE_FUNCTION static inline __m128i

negate_argb_sse2(__m128i a)

{

  return _mm_xor_si128(a, MC(16xff));

}

SSE_FUNCTION static inline __m128i

load_argb_sse2(const uint32_t *src)

{

  return _mm_loadu_si128((__m128i *)src);

}

SSE_FUNCTION static inline __m128i

set1_argb_sse2(uint32_t src)

{

  return _mm_set1_epi32(src);

}

SSE_FUNCTION static inline __m128i

load_u8_mask(const uint8_t *m)

{

  __m128i a;

  a = _mm_cvtsi32_si128(*(uint32_t *)m);

  a = _mm_unpacklo_epi8(a, a);

  a = _mm_unpacklo_epi16(a, a);

  return a;

}

SSE_FUNCTION static inline __m128i

set1_u8_mask(uint8_t m)

{

  return _mm_set1_epi8(m);

}

SSE_FUNCTION static void

store_argb_sse2(uint32_t *dest, __m128i pix)

{

  _mm_store_si128((__m128i *)dest, pix);

}

SSE_FUNCTION static __m128i 

over_argb_sse2(__m128i dest, __m128i src, __m128i srca)

{

  return _mm_adds_epu8(src, muldiv_255_sse2(dest, negate_argb_sse2(srca)));

}

SSE_FUNCTION static void

composite_in_argb_sse (uint32_t *dest, const uint32_t *src, const uint8_t *mask,

    int n)

{

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t s = *src++;

    uint8_t m = *mask++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(s), m),

	COMPOSITE_IN(oil_argb_R(s), m),

	COMPOSITE_IN(oil_argb_G(s), m),

	COMPOSITE_IN(oil_argb_B(s), m));

  }

  for (; n >= 4; n -= 4) {

    __m128i s, m;

    s = load_argb_sse2(src);

    m = load_u8_mask(mask);

    store_argb_sse2(dest, muldiv_255_sse2(s, m));

    src += 4;

    mask += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t s = *src++;

    uint8_t m = *mask++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(s), m),

	COMPOSITE_IN(oil_argb_R(s), m),

	COMPOSITE_IN(oil_argb_G(s), m),

	COMPOSITE_IN(oil_argb_B(s), m));

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_argb_sse, composite_in_argb,

    OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_in_argb_const_src_sse (uint32_t *dest, const uint32_t *src,

    const uint8_t *mask, int n)

{

  __m128i s;

  s = set1_argb_sse2(*src);

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint8_t m = *mask++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(*src), m),

	COMPOSITE_IN(oil_argb_R(*src), m),

	COMPOSITE_IN(oil_argb_G(*src), m),

	COMPOSITE_IN(oil_argb_B(*src), m));

  }

  for (; n >= 4; n -= 4) {

    __m128i m;

    m = load_u8_mask(mask);

    store_argb_sse2(dest, muldiv_255_sse2(s, m));

    mask += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint8_t m = *mask++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(*src), m),

	COMPOSITE_IN(oil_argb_R(*src), m),

	COMPOSITE_IN(oil_argb_G(*src), m),

	COMPOSITE_IN(oil_argb_B(*src), m));

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_argb_const_src_sse,

    composite_in_argb_const_src, OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_in_argb_const_mask_sse (uint32_t *dest, const uint32_t *src,

    const uint8_t *mask, int n)

{

  __m128i m;

  m = set1_u8_mask(*mask);

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t s = *src++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(s), mask[0]),

	COMPOSITE_IN(oil_argb_R(s), mask[0]),

	COMPOSITE_IN(oil_argb_G(s), mask[0]),

	COMPOSITE_IN(oil_argb_B(s), mask[0]));

  }

  for (; n >= 4; n -= 4) {

    __m128i s;

    s = load_argb_sse2(src);

    store_argb_sse2(dest,  muldiv_255_sse2(s, m));

    src += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t s = *src++;

    *dest++ = oil_argb(

	COMPOSITE_IN(oil_argb_A(s), mask[0]),

	COMPOSITE_IN(oil_argb_R(s), mask[0]),

	COMPOSITE_IN(oil_argb_G(s), mask[0]),

	COMPOSITE_IN(oil_argb_B(s), mask[0]));

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_argb_const_mask_sse,

    composite_in_argb_const_mask, OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_over_argb_sse (uint32_t *dest, const uint32_t *src, int n)

{

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t d = *dest, s = *src++;

    uint8_t srca = oil_argb_A(s);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(s), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(s), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(s), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(s), srca));

    *dest++ = d;

  }

  for (; n >= 4; n -= 4) {

    __m128i d, s;

    s = load_argb_sse2(src);

    d = over_argb_sse2(*(__m128i *)dest, s, argb_A_sse2(s));

    store_argb_sse2(dest, d);

    src += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t d = *dest, s = *src++;

    uint8_t srca = oil_argb_A(s);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(s), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(s), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(s), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(s), srca));

    *dest++ = d;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_over_argb_sse, composite_over_argb,

    OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_over_argb_const_src_sse (uint32_t *dest, const uint32_t *src, int n)

{

  __m128i s, sa;

  uint32_t srca;

  srca = oil_argb_A(*src);

  s = set1_argb_sse2(*src);

  sa = negate_argb_sse2(argb_A_sse2(s));

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t d = *dest;

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(*src), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(*src), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(*src), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(*src), srca));

    *dest++ = d;

  }

  for (; n >= 4; n -= 4) {

    __m128i d;

    d = _mm_adds_epu8(s, muldiv_255_sse2(*(__m128i *)dest, sa));

    store_argb_sse2(dest, d);

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t d = *dest;

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(*src), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(*src), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(*src), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(*src), srca));

    *dest++ = d;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_over_argb_const_src_sse,

    composite_over_argb_const_src, OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_in_over_argb_sse (uint32_t *dest, const uint32_t *src,

    const uint8_t *mask, int n)

{

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t d = *dest, s = *src++, m = *mask++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(s), m),

        COMPOSITE_IN(oil_argb_R(s), m),

        COMPOSITE_IN(oil_argb_G(s), m),

        COMPOSITE_IN(oil_argb_B(s), m));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

  for (; n >= 4; n -= 4) {

    __m128i d, s, m;

    s = load_argb_sse2(src);

    m = load_u8_mask(mask);

    s = muldiv_255_sse2(s, m);

    d = over_argb_sse2(*(__m128i *)dest, s, argb_A_sse2(s));

    store_argb_sse2(dest, d);

    src += 4;

    mask += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t d = *dest, s = *src++, m = *mask++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(s), m),

        COMPOSITE_IN(oil_argb_R(s), m),

        COMPOSITE_IN(oil_argb_G(s), m),

        COMPOSITE_IN(oil_argb_B(s), m));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_over_argb_sse, composite_in_over_argb,

    OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_in_over_argb_const_src_sse (uint32_t *dest, const uint32_t *src,

    const uint8_t *mask, int n)

{

  __m128i s;

  s = set1_argb_sse2(*src);

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t d = *dest, m = *mask++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(*src), m),

        COMPOSITE_IN(oil_argb_R(*src), m),

        COMPOSITE_IN(oil_argb_G(*src), m),

        COMPOSITE_IN(oil_argb_B(*src), m));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

  for (; n >= 4; n -= 4) {

    __m128i d, color, m;

    m = load_u8_mask(mask);

    color = muldiv_255_sse2(s, m);

    d = over_argb_sse2(*(__m128i *)dest, color, argb_A_sse2(color));

    store_argb_sse2(dest, d);

    mask += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t d = *dest, m = *mask++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(*src), m),

        COMPOSITE_IN(oil_argb_R(*src), m),

        COMPOSITE_IN(oil_argb_G(*src), m),

        COMPOSITE_IN(oil_argb_B(*src), m));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_over_argb_const_src_sse,

    composite_in_over_argb_const_src, OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_in_over_argb_const_mask_sse (uint32_t *dest, const uint32_t *src,

    const uint8_t *mask, int n)

{

  __m128i m;

  m = set1_u8_mask(*mask);

  for (; ((long)dest & 15) && (n > 0); n--) {

    uint32_t d = *dest, s = *src++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(s), *mask),

        COMPOSITE_IN(oil_argb_R(s), *mask),

        COMPOSITE_IN(oil_argb_G(s), *mask),

        COMPOSITE_IN(oil_argb_B(s), *mask));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

  for (; n >= 4; n -= 4) {

    __m128i d, s;

    s = load_argb_sse2(src);

    s = muldiv_255_sse2(s, m);

    d = over_argb_sse2(*(__m128i *)dest, s, argb_A_sse2(s));

    store_argb_sse2(dest, d);

    src += 4;

    dest += 4;

  }

  for (; n > 0; n--) {

    uint32_t d = *dest, s = *src++, color;

    uint8_t srca;

    color = oil_argb(

        COMPOSITE_IN(oil_argb_A(s), *mask),

        COMPOSITE_IN(oil_argb_R(s), *mask),

        COMPOSITE_IN(oil_argb_G(s), *mask),

        COMPOSITE_IN(oil_argb_B(s), *mask));

    srca = oil_argb_A(color);

    d = oil_argb(

	COMPOSITE_OVER(oil_argb_A(d), oil_argb_A(color), srca),

	COMPOSITE_OVER(oil_argb_R(d), oil_argb_R(color), srca),

	COMPOSITE_OVER(oil_argb_G(d), oil_argb_G(color), srca),

	COMPOSITE_OVER(oil_argb_B(d), oil_argb_B(color), srca));

    *dest++ = d;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_in_over_argb_const_mask_sse,

    composite_in_over_argb_const_mask, OIL_IMPL_FLAG_SSE2);

SSE_FUNCTION static void

composite_over_u8_sse (uint8_t *dest, const uint8_t *src, int n)

{

  /* Initial operations to align the destination pointer */

  for (; ((long)dest & 15) && (n > 0); n--) {

    *dest = COMPOSITE_OVER(*dest, *src, *src);

    src++;

    dest++;

  }

  /* over_u8 can be dealt with using our argb code, with srca = s */

  for (; n >= 16; n -= 16) {

    __m128i d, s;

    d = *(__m128i *)dest;

    s = load_argb_sse2((uint32_t *)src);

    store_argb_sse2((uint32_t *)dest, over_argb_sse2(d, s, s));

    src += 16;

    dest += 16;

  }

  for (; n > 0; n--) {

    *dest = COMPOSITE_OVER(*dest, *src, *src);

    src++;

    dest++;

  }

}

OIL_DEFINE_IMPL_FULL_WRAPPER (composite_over_u8_sse, composite_over_u8,

    OIL_IMPL_FLAG_SSE2);

#endif