/*
 * ***** BEGIN GPL LICENSE BLOCK *****
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 *
 * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
 * All rights reserved.
 *
 * The Original Code is: some of this file.
 *
 * ***** END GPL LICENSE BLOCK *****
 * */

/** \file blender/blenlib/intern/math_color_inline.c
 *  \ingroup bli
 */


#include "BLI_math_color.h"
#include "BLI_utildefines.h"

#ifndef __MATH_COLOR_INLINE_C__
#define __MATH_COLOR_INLINE_C__

/******************************** Color Space ********************************/

MINLINE void srgb_to_linearrgb_v3_v3(float linear[3], const float srgb[3])
{
	linear[0] = srgb_to_linearrgb(srgb[0]);
	linear[1] = srgb_to_linearrgb(srgb[1]);
	linear[2] = srgb_to_linearrgb(srgb[2]);
}

MINLINE void linearrgb_to_srgb_v3_v3(float srgb[3], const float linear[3])
{
	srgb[0] = linearrgb_to_srgb(linear[0]);
	srgb[1] = linearrgb_to_srgb(linear[1]);
	srgb[2] = linearrgb_to_srgb(linear[2]);
}

MINLINE void srgb_to_linearrgb_v4(float linear[4], const float srgb[4])
{
	srgb_to_linearrgb_v3_v3(linear, srgb);
	linear[3] = srgb[3];
}

MINLINE void linearrgb_to_srgb_v4(float srgb[4], const float linear[4])
{
	linearrgb_to_srgb_v3_v3(srgb, linear);
	srgb[3] = linear[3];
}

MINLINE void linearrgb_to_srgb_uchar3(unsigned char srgb[3], const float linear[3])
{
	float srgb_f[3];

	linearrgb_to_srgb_v3_v3(srgb_f, linear);
	F3TOCHAR3(srgb_f, srgb);
}

MINLINE void linearrgb_to_srgb_uchar4(unsigned char srgb[4], const float linear[4])
{
	float srgb_f[4];

	linearrgb_to_srgb_v4(srgb_f, linear);
	F4TOCHAR4(srgb_f, srgb);
}

/* predivide versions to work on associated/pre-multipled alpha. if this should
 * be done or not depends on the background the image will be composited over,
 * ideally you would never do color space conversion on an image with alpha
 * because it is ill defined */

MINLINE void srgb_to_linearrgb_predivide_v4(float linear[4], const float srgb[4])
{
	float alpha, inv_alpha;

	if (srgb[3] == 1.0f || srgb[3] == 0.0f) {
		alpha = 1.0f;
		inv_alpha = 1.0f;
	}
	else {
		alpha = srgb[3];
		inv_alpha = 1.0f / alpha;
	}

	linear[0] = srgb_to_linearrgb(srgb[0] * inv_alpha) * alpha;
	linear[1] = srgb_to_linearrgb(srgb[1] * inv_alpha) * alpha;
	linear[2] = srgb_to_linearrgb(srgb[2] * inv_alpha) * alpha;
	linear[3] = srgb[3];
}

MINLINE void linearrgb_to_srgb_predivide_v4(float srgb[4], const float linear[4])
{
	float alpha, inv_alpha;

	if (linear[3] == 1.0f || linear[3] == 0.0f) {
		alpha = 1.0f;
		inv_alpha = 1.0f;
	}
	else {
		alpha = linear[3];
		inv_alpha = 1.0f / alpha;
	}

	srgb[0] = linearrgb_to_srgb(linear[0] * inv_alpha) * alpha;
	srgb[1] = linearrgb_to_srgb(linear[1] * inv_alpha) * alpha;
	srgb[2] = linearrgb_to_srgb(linear[2] * inv_alpha) * alpha;
	srgb[3] = linear[3];
}

/* LUT accelerated conversions */

extern float BLI_color_from_srgb_table[256];
extern unsigned short BLI_color_to_srgb_table[0x10000];

MINLINE unsigned short to_srgb_table_lookup(const float f)
{

	union {
		float f;
		unsigned short us[2];
	} tmp;
	tmp.f = f;
#ifdef __BIG_ENDIAN__
	return BLI_color_to_srgb_table[tmp.us[0]];
#else
	return BLI_color_to_srgb_table[tmp.us[1]];
#endif
}

MINLINE void linearrgb_to_srgb_ushort4(unsigned short srgb[4], const float linear[4])
{
	srgb[0] = to_srgb_table_lookup(linear[0]);
	srgb[1] = to_srgb_table_lookup(linear[1]);
	srgb[2] = to_srgb_table_lookup(linear[2]);
	srgb[3] = FTOUSHORT(linear[3]);
}

MINLINE void linearrgb_to_srgb_ushort4_predivide(unsigned short srgb[4], const float linear[4])
{
	float alpha, inv_alpha, t;
	int i;

	if (linear[3] == 1.0f || linear[3] == 0.0f) {
		linearrgb_to_srgb_ushort4(srgb, linear);
		return;
	}

	alpha = linear[3];
	inv_alpha = 1.0f / alpha;

	for (i = 0; i < 3; ++i) {
		t = linear[i] * inv_alpha;
		srgb[i] = (t < 1.0f) ? (unsigned short) (to_srgb_table_lookup(t) * alpha) : FTOUSHORT(linearrgb_to_srgb(t) * alpha);
	}

	srgb[3] = FTOUSHORT(linear[3]);
}

MINLINE void srgb_to_linearrgb_uchar4(float linear[4], const unsigned char srgb[4])
{
	linear[0] = BLI_color_from_srgb_table[srgb[0]];
	linear[1] = BLI_color_from_srgb_table[srgb[1]];
	linear[2] = BLI_color_from_srgb_table[srgb[2]];
	linear[3] = srgb[3] * (1.0f / 255.0f);
}

MINLINE void srgb_to_linearrgb_uchar4_predivide(float linear[4], const unsigned char srgb[4])
{
	float fsrgb[4];
	int i;

	if (srgb[3] == 255 || srgb[3] == 0) {
		srgb_to_linearrgb_uchar4(linear, srgb);
		return;
	}

	for (i = 0; i < 4; i++)
		fsrgb[i] = srgb[i] * (1.0f / 255.0f);

	srgb_to_linearrgb_predivide_v4(linear, fsrgb);
}

/* color macros for themes */
#define rgba_char_args_set_fl(col, r, g, b, a)  rgba_char_args_set(col, r * 255, g * 255, b * 255, a * 255)

MINLINE void rgba_char_args_set(char col[4], const char r, const char g, const char b, const char a)
{
	col[0] = r;
	col[1] = g;
	col[2] = b;
	col[3] = a;
}

MINLINE void rgba_char_args_test_set(char col[4], const char r, const char g, const char b, const char a)
{
	if (col[3] == 0) {
		col[0] = r;
		col[1] = g;
		col[2] = b;
		col[3] = a;
	}
}

MINLINE void cpack_cpy_3ub(unsigned char r_col[3], const unsigned int pack)
{
	r_col[0] = ((pack) >>  0) & 0xFF;
	r_col[1] = ((pack) >>  8) & 0xFF;
	r_col[2] = ((pack) >> 16) & 0xFF;
}

/* TODO:
 *
 * regarding #rgb_to_bw vs #rgb_to_grayscale,
 * it seems nobody knows why we have both functions which convert color to grays
 * but with different influences, this is quite stupid, and should be resolved
 * by someone who knows this stuff: see this thread
 * http://lists.blender.org/pipermail/bf-committers/2012-June/037180.html
 *
 * Only conclusion is that rgb_to_grayscale is used more for compositing.
 */
MINLINE float rgb_to_bw(const float rgb[3])
{
	return 0.35f * rgb[0] + 0.45f * rgb[1] + 0.2f * rgb[2];
}

/* non-linear luma from ITU-R BT.601-2
 * see: http://www.poynton.com/notes/colour_and_gamma/ColorFAQ.html#RTFToC11
 * note: the values used for are not exact matches to those documented above,
 * but they are from the same */
MINLINE float rgb_to_grayscale(const float rgb[3])
{
	return 0.3f * rgb[0] + 0.58f * rgb[1] + 0.12f * rgb[2];
}

MINLINE unsigned char rgb_to_grayscale_byte(const unsigned char rgb[3])
{
	return (76 * (unsigned short) rgb[0] + 148 * (unsigned short) rgb[1] + 31 * (unsigned short) rgb[2]) / 255;
}

/* luma from defined by 'YCC_JFIF', see #rgb_to_ycc */
MINLINE float rgb_to_luma(const float rgb[3])
{
	return 0.299f * rgb[0] + 0.587f * rgb[1] + 0.114f * rgb[2];
}

MINLINE unsigned char rgb_to_luma_byte(const unsigned char rgb[3])
{
	return (76 * (unsigned short) rgb[0] + 150 * (unsigned short) rgb[1] + 29 * (unsigned short) rgb[2]) / 255;
}

/* gamma-corrected RGB --> CIE XYZ
 * for this function we only get the Y component
 * see: http://software.intel.com/sites/products/documentation/hpc/ipp/ippi/ippi_ch6/ch6_color_models.html
 *
 * also known as:
 * luminance rec. 709 */
MINLINE float rgb_to_luma_y(const float rgb[3])
{
	return 0.212671f * rgb[0] + 0.71516f * rgb[1] + 0.072169f * rgb[2];
}


#endif /* __MATH_COLOR_INLINE_C__ */