/*
* The ManaPlus Client
* Copyright (C) 2007-2009 The Mana World Development Team
* Copyright (C) 2009-2010 The Mana Developers
* Copyright (C) 2011-2016 The ManaPlus Developers
*
* This file is part of The ManaPlus Client.
*
* 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
* 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, see .
*/
#include "resources/dye/dyepalette.h"
#include "logger.h"
#ifndef DYECMD
#include "resources/db/palettedb.h"
#endif
#include "utils/stringutils.h"
#include
#include
#include "debug.h"
DyePalette::DyePalette(const std::string &restrict description,
const uint8_t blockSize) :
mColors()
{
const size_t size = static_cast(description.length());
if (size == 0)
return;
StringVect parts;
splitToStringVector(parts, description.substr(1), ',');
if (description[0] == '#')
{
FOR_EACH (StringVectCIter, it, parts)
{
DyeColor color(0, 0, 0, 0);
hexToColor(*it, blockSize, color);
mColors.push_back(color);
}
return;
}
#ifndef DYECMD
else if (description[0] == '@')
{
uint8_t alpha = 255;
FOR_EACH (StringVectCIter, it, parts)
{
const std::string str = *it;
if (str.empty())
continue;
if (str[0] == '+')
{
if (str.size() != 3)
continue;
alpha = (hexDecode(str[1]) << 4) + hexDecode(str[2]);
continue;
}
const DyeColor *const color = PaletteDB::getColor(str);
if (color)
{
DyeColor color2 = *color;
color2.value[3] = alpha;
mColors.push_back(color2);
}
else
{
DyeColor color2(0, 0, 0, 0);
hexToColor(str, blockSize, color2);
mColors.push_back(color2);
}
}
return;
}
#endif
logger->log("Error, invalid embedded palette: %s", description.c_str());
}
void DyePalette::hexToColor(const std::string &hexStr,
const uint8_t blockSize,
DyeColor &color)
{
for (size_t i = 0, colorIdx = 0;
i < blockSize && colorIdx < 4;
i += 2, colorIdx ++)
{
color.value[colorIdx] = static_cast((
hexDecode(hexStr[i]) << 4)
+ hexDecode(hexStr[i + 1]));
}
}
unsigned int DyePalette::hexDecode(const signed char c)
{
if ('0' <= c && c <= '9')
return c - '0';
else if ('A' <= c && c <= 'F')
return c - 'A' + 10;
else if ('a' <= c && c <= 'f')
return c - 'a' + 10;
else
return 0;
}
void DyePalette::getColor(const unsigned int intensity,
unsigned int (&restrict color)[3]) const restrict2
{
if (intensity == 0)
{
color[0] = 0;
color[1] = 0;
color[2] = 0;
return;
}
const int last = static_cast(mColors.size());
if (last == 0)
return;
const int intLast = intensity * last;
const int i = intLast / 255;
const int t = intLast % 255;
int j = t != 0 ? i : i - 1;
if (j >= last)
j = 0;
// Get the exact color if any, the next color otherwise.
const DyeColor &colorJ = mColors[j];
const int r2 = colorJ.value[0];
const int g2 = colorJ.value[1];
const int b2 = colorJ.value[2];
if (t == 0)
{
// Exact color.
color[0] = r2;
color[1] = g2;
color[2] = b2;
return;
}
// Get the previous color. First color is implicitly black.
if (i > 0 && i < last + 1)
{
const DyeColor &colorI = mColors[i - 1];
const int t2 = 255 - t;
// Perform a linear interpolation.
color[0] = (t2 * colorI.value[0] + t * r2) / 255;
color[1] = (t2 * colorI.value[1] + t * g2) / 255;
color[2] = (t2 * colorI.value[2] + t * b2) / 255;
}
else
{
// Perform a linear interpolation.
color[0] = (t * r2) / 255;
color[1] = (t * g2) / 255;
color[2] = (t * b2) / 255;
}
}
void DyePalette::getColor(double intensity,
int (&restrict color)[3]) const restrict2
{
// Nothing to do here
if (mColors.empty())
return;
// Force range
if (intensity > 1.0)
intensity = 1.0;
else if (intensity < 0.0)
intensity = 0.0;
// Scale up
intensity *= static_cast(mColors.size() - 1);
// Color indices
const int i = static_cast(floor(intensity));
const int j = static_cast(ceil(intensity));
const DyeColor &colorI = mColors[i];
if (i == j)
{
// Exact color.
color[0] = colorI.value[0];
color[1] = colorI.value[1];
color[2] = colorI.value[2];
return;
}
intensity -= i;
const double rest = 1 - intensity;
const DyeColor &colorJ = mColors[j];
// Perform the interpolation.
color[0] = static_cast(rest * colorI.value[0] +
intensity * colorJ.value[0]);
color[1] = static_cast(rest * colorI.value[1] +
intensity * colorJ.value[1]);
color[2] = static_cast(rest * colorI.value[2] +
intensity * colorJ.value[2]);
}
void DyePalette::replaceSColor(uint32_t *restrict pixels,
const int bufSize) const restrict2
{
std::vector::const_iterator it_end = mColors.end();
const size_t sz = mColors.size();
if (!sz || !pixels)
return;
if (sz % 2)
-- it_end;
#ifdef ENABLE_CILKPLUS
cilk_for (int ptr = 0; ptr < bufSize; ptr ++)
{
uint8_t *const p = reinterpret_cast(&pixels[ptr]);
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const int alpha = pixels[ptr] & 0xff000000;
const unsigned int data = pixels[ptr] & 0x00ffffff;
#else
const int alpha = *p & 0xff;
const unsigned int data = pixels[ptr] & 0xffffff00;
#endif
// logger->log("c:%04d %08x", c, *pixels);
// logger->log("data: %08x", data);
if (!alpha)
{
// logger->log("skip: %08x", *pixels);
}
else
{
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[2] << 16U)
| (col.value[1] << 8U) | (col.value[0]);
#else
const unsigned int coldata = (col.value[2] << 8U)
| (col.value[1] << 16U) | (col.value[0] << 24U);
#endif
// logger->log("coldata: %08x", coldata);
if (data == coldata)
{
// logger->log("correct");
p[3] = col2.value[0];
p[2] = col2.value[1];
p[1] = col2.value[2];
break;
}
++ it;
}
}
}
#else // ENABLE_CILKPLUS
for (uint32_t *p_end = pixels + static_cast(bufSize);
pixels != p_end;
++ pixels)
{
uint8_t *const p = reinterpret_cast(pixels);
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const int alpha = *pixels & 0xff000000;
const unsigned int data = (*pixels) & 0x00ffffff;
#else
const int alpha = *p & 0xff;
const unsigned int data = (*pixels) & 0xffffff00;
#endif
// logger->log("c:%04d %08x", c, *pixels);
// logger->log("data: %08x", data);
if (!alpha)
{
// logger->log("skip: %08x", *pixels);
continue;
}
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[2] << 16U)
| (col.value[1] << 8U) | (col.value[0]);
#else
const unsigned int coldata = (col.value[2] << 8U)
| (col.value[1] << 16U) | (col.value[0] << 24U);
#endif
// logger->log("coldata: %08x", coldata);
if (data == coldata)
{
// logger->log("correct");
p[3] = col2.value[0];
p[2] = col2.value[1];
p[1] = col2.value[2];
break;
}
++ it;
}
}
#endif // ENABLE_CILKPLUS
}
void DyePalette::replaceAColor(uint32_t *restrict pixels,
const int bufSize) const restrict2
{
std::vector::const_iterator it_end = mColors.end();
const size_t sz = mColors.size();
if (!sz || !pixels)
return;
if (sz % 2)
-- it_end;
#ifdef ENABLE_CILKPLUS
cilk_for (int ptr = 0; ptr < bufSize; ptr ++)
{
uint8_t *const p = reinterpret_cast(&pixels[ptr]);
const unsigned int data = pixels[ptr];
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[3] << 24U)
| (col.value[2] << 16U)
| (col.value[1] << 8U)
| (col.value[0]);
#else
const unsigned int coldata = (col.value[3])
| (col.value[2] << 8U)
| (col.value[1] << 16U) |
(col.value[0] << 24U);
#endif
if (data == coldata)
{
p[3] = col2.value[0];
p[2] = col2.value[1];
p[1] = col2.value[2];
p[0] = col2.value[3];
break;
}
++ it;
}
}
#else // ENABLE_CILKPLUS
for (uint32_t *p_end = pixels + static_cast(bufSize);
pixels != p_end;
++pixels)
{
uint8_t *const p = reinterpret_cast(pixels);
const unsigned int data = *pixels;
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[3] << 24U)
| (col.value[2] << 16U)
| (col.value[1] << 8U)
| (col.value[0]);
#else
const unsigned int coldata = (col.value[3])
| (col.value[2] << 8U)
| (col.value[1] << 16U) |
(col.value[0] << 24U);
#endif
if (data == coldata)
{
p[3] = col2.value[0];
p[2] = col2.value[1];
p[1] = col2.value[2];
p[0] = col2.value[3];
break;
}
++ it;
}
}
#endif // ENABLE_CILKPLUS
}
void DyePalette::replaceSOGLColor(uint32_t *restrict pixels,
const int bufSize) const restrict2
{
std::vector::const_iterator it_end = mColors.end();
const size_t sz = mColors.size();
if (!sz || !pixels)
return;
if (sz % 2)
-- it_end;
#ifdef ENABLE_CILKPLUS
cilk_for (int ptr = 0; ptr < bufSize; ptr ++)
{
uint8_t *const p = reinterpret_cast(&pixels[ptr]);
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const int alpha = *p & 0xff;
const unsigned int data = (pixels[ptr]) & 0xffffff00;
#else
const int alpha = pixels[ptr] & 0xff000000;
const unsigned int data = (pixels[ptr]) & 0x00ffffff;
#endif
if (alpha)
{
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[0] << 24)
| (col.value[1] << 16) | (col.value[2] << 8);
#else
const unsigned int coldata = (col.value[0])
| (col.value[1] << 8) | (col.value[2] << 16);
#endif
if (data == coldata)
{
p[0] = col2.value[0];
p[1] = col2.value[1];
p[2] = col2.value[2];
break;
}
++ it;
}
}
}
#else // ENABLE_CILKPLUS
for (uint32_t *p_end = pixels + static_cast(bufSize);
pixels != p_end;
++pixels)
{
uint8_t *const p = reinterpret_cast(pixels);
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const int alpha = *p & 0xff;
const unsigned int data = (*pixels) & 0xffffff00;
#else
const int alpha = *pixels & 0xff000000;
const unsigned int data = (*pixels) & 0x00ffffff;
#endif
if (!alpha)
continue;
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[0] << 24)
| (col.value[1] << 16) | (col.value[2] << 8);
#else
const unsigned int coldata = (col.value[0])
| (col.value[1] << 8) | (col.value[2] << 16);
#endif
if (data == coldata)
{
p[0] = col2.value[0];
p[1] = col2.value[1];
p[2] = col2.value[2];
break;
}
++ it;
}
}
#endif // ENABLE_CILKPLUS
}
void DyePalette::replaceAOGLColor(uint32_t *restrict pixels,
const int bufSize) const restrict2
{
std::vector::const_iterator it_end = mColors.end();
const size_t sz = mColors.size();
if (!sz || !pixels)
return;
if (sz % 2)
-- it_end;
#ifdef ENABLE_CILKPLUS
cilk_for (int ptr = 0; ptr < bufSize; ptr ++)
{
uint8_t *const p = reinterpret_cast(&pixels[ptr]);
const unsigned int data = pixels[ptr];
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[0] << 24U)
| (col.value[1] << 16U)
| (col.value[2] << 8U)
| col.value[3];
#else
const unsigned int coldata = (col.value[0])
| (col.value[1] << 8U)
| (col.value[2] << 16U)
| (col.value[3] << 24U);
#endif
if (data == coldata)
{
p[0] = col2.value[0];
p[1] = col2.value[1];
p[2] = col2.value[2];
p[3] = col2.value[3];
break;
}
++ it;
}
}
#else // ENABLE_CILKPLUS
for (uint32_t *p_end = pixels + static_cast(bufSize);
pixels != p_end;
++pixels)
{
uint8_t *const p = reinterpret_cast(pixels);
const unsigned int data = *pixels;
std::vector::const_iterator it = mColors.begin();
while (it != it_end)
{
const DyeColor &col = *it;
++ it;
const DyeColor &col2 = *it;
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const unsigned int coldata = (col.value[0] << 24U)
| (col.value[1] << 16U)
| (col.value[2] << 8U)
| col.value[3];
#else
const unsigned int coldata = (col.value[0])
| (col.value[1] << 8U)
| (col.value[2] << 16U)
| (col.value[3] << 24U);
#endif
if (data == coldata)
{
p[0] = col2.value[0];
p[1] = col2.value[1];
p[2] = col2.value[2];
p[3] = col2.value[3];
break;
}
++ it;
}
}
#endif // ENABLE_CILKPLUS
}