#pragma once
#ifndef LOOP_MACROS_INCLUDED
#define LOOP_MACROS_INCLUDED
/*
assert ((0 <= xI) && (xI <= up->getLx() - 1) && \
(0 <= yI) && (yI <= up->getLy() - 1) ); \
*/
#define INTERNAL_LOOP_THE_FIRST \
xL += deltaXL; \
yL += deltaYL; \
xI = xL >> PADN; \
yI = yL >> PADN; \
upPix00 = upBasePix + (yI * upWrap + xI); \
upPix10 = upPix00 + 1; \
upPix01 = upPix00 + upWrap; \
upPix11 = upPix00 + upWrap + 1; \
xWeight1 = (xL & MASKN); \
xWeight0 = (1 << PADN) - xWeight1; \
yWeight1 = (yL & MASKN); \
yWeight0 = (1 << PADN) - yWeight1; \
c1 = MULT_2_X_16BIT(upPix00->r, upPix00->g, xWeight0); \
c3 = MULT_2_X_16BIT(upPix00->b, upPix01->r, xWeight0); \
c5 = MULT_2_X_16BIT(upPix01->g, upPix01->b, xWeight0); \
c2 = MULT_2_X_16BIT(upPix10->r, upPix10->g, xWeight1); \
c4 = MULT_2_X_16BIT(upPix10->b, upPix11->r, xWeight1); \
c6 = MULT_2_X_16BIT(upPix11->g, upPix11->b, xWeight1); \
s_gb = (c5 + c6) >> 16; \
gColUpTmp = s_gb >> 32; \
bColUpTmp = s_gb & 0x1FF; \
s_br = (c3 + c4) >> 16; \
bColDownTmp = s_br >> 32; \
rColUpTmp = s_br & 0x1FF; \
s_rg = (c1 + c2) >> 16; \
rColDownTmp = s_rg >> 32; \
gColDownTmp = s_rg & 0x1FF; \
rCol = (unsigned char)((yWeight0 * rColDownTmp + yWeight1 * rColUpTmp) >> \
PADN); \
gCol = (unsigned char)((yWeight0 * gColDownTmp + yWeight1 * gColUpTmp) >> \
PADN); \
bCol = (unsigned char)((yWeight0 * bColDownTmp + yWeight1 * bColUpTmp) >> \
PADN); \
*dnPix = TPixel32(rCol, gCol, bCol, upPix00->m);
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_FIRST_X_2 \
INTERNAL_LOOP_THE_FIRST \
++dnPix; \
INTERNAL_LOOP_THE_FIRST
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_FIRST_X_4 \
INTERNAL_LOOP_THE_FIRST_X_2 \
++dnPix; \
INTERNAL_LOOP_THE_FIRST_X_2
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_FIRST_X_8 \
INTERNAL_LOOP_THE_FIRST_X_4 \
++dnPix; \
INTERNAL_LOOP_THE_FIRST_X_4
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_FIRST_X_16 \
INTERNAL_LOOP_THE_FIRST_X_8 \
++dnPix; \
INTERNAL_LOOP_THE_FIRST_X_8
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_FIRST_X_32 \
INTERNAL_LOOP_THE_FIRST_X_16 \
++dnPix; \
INTERNAL_LOOP_THE_FIRST_X_16
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST \
a = invAff * TPointD(xMin, y); \
xL0 = tround(a.x * (1 << PADN)); \
yL0 = tround(a.y * (1 << PADN)); \
kMinX = 0; \
kMaxX = xMax - xMin; \
kMinY = 0; \
kMaxY = xMax - xMin; \
if (deltaXL == 0) { \
if ((xL0 < 0) || (lxPred < xL0)) continue; \
} else if (deltaXL > 0) { \
if (lxPred < xL0) continue; \
kMaxX = (lxPred - xL0) / deltaXL; \
if (xL0 < 0) { \
kMinX = ((-xL0) + deltaXL - 1) / deltaXL; \
} \
} else { \
if (xL0 < 0) continue; \
kMaxX = xL0 / (-deltaXL); \
if (lxPred < xL0) { \
kMinX = (xL0 - lxPred - deltaXL - 1) / (-deltaXL); \
} \
} \
if (deltaYL == 0) { \
if ((yL0 < 0) || (lyPred < yL0)) continue; \
} else if (deltaYL > 0) { \
if (lyPred < yL0) continue; \
kMaxY = (lyPred - yL0) / deltaYL; \
if (yL0 < 0) { \
kMinY = ((-yL0) + deltaYL - 1) / deltaYL; \
} \
} else { \
if (yL0 < 0) continue; \
kMaxY = yL0 / (-deltaYL); \
if (lyPred < yL0) { \
kMinY = (yL0 - lyPred - deltaYL - 1) / (-deltaYL); \
} \
} \
kMin = std::max({kMinX, kMinY, (int)0}); \
kMax = std::min(kMaxX, kMaxY, xMax - xMin); \
dnPix = dnRow + xMin + kMin; \
dnEndPix = dnRow + xMin + kMax + 1; \
xL = xL0 + (kMin - 1) * deltaXL; \
yL = yL0 + (kMin - 1) * deltaYL; \
for (; dnPix < dnEndPix - 32; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST_X_32; \
} \
for (; dnPix < dnEndPix - 16; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST_X_16; \
} \
for (; dnPix < dnEndPix - 8; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST_X_8; \
} \
for (; dnPix < dnEndPix - 4; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST_X_4; \
} \
for (; dnPix < dnEndPix - 2; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST_X_2; \
} \
for (; dnPix < dnEndPix; ++dnPix) { \
INTERNAL_LOOP_THE_FIRST \
}
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST_X_2 \
EXTERNAL_LOOP_THE_FIRST \
++y; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_FIRST
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST_X_4 \
EXTERNAL_LOOP_THE_FIRST_X_2 \
++y; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_FIRST_X_2
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST_X_8 \
EXTERNAL_LOOP_THE_FIRST_X_4 \
++y; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_FIRST_X_4
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST_X_16 \
EXTERNAL_LOOP_THE_FIRST_X_8 \
++y; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_FIRST_X_8
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_FIRST_X_32 \
EXTERNAL_LOOP_THE_FIRST_X_16 \
++y; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_FIRST_X_16
/*
assert ((0 <= xI) && (xI <= up->getLx() - 1) && \
(0 <= yI) && (yI <= up->getLy() - 1) ); \
*/
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND \
xL += deltaXL; \
xI = xL >> PADN; \
upPix00 = upBasePix + (yI * upWrap + xI); \
upPix10 = upPix00 + 1; \
upPix01 = upPix00 + upWrap; \
upPix11 = upPix00 + upWrap + 1; \
xWeight1 = (xL & MASKN); \
xWeight0 = (1 << PADN) - xWeight1; \
c1 = MULT_2_X_16BIT(upPix00->r, upPix00->g, xWeight0); \
c3 = MULT_2_X_16BIT(upPix00->b, upPix01->r, xWeight0); \
c5 = MULT_2_X_16BIT(upPix01->g, upPix01->b, xWeight0); \
c2 = MULT_2_X_16BIT(upPix10->r, upPix10->g, xWeight1); \
c4 = MULT_2_X_16BIT(upPix10->b, upPix11->r, xWeight1); \
c6 = MULT_2_X_16BIT(upPix11->g, upPix11->b, xWeight1); \
s_gb = (c5 + c6) >> 16; \
gColUpTmp = s_gb >> 32; \
bColUpTmp = s_gb & 0x1FF; \
s_br = (c3 + c4) >> 16; \
bColDownTmp = s_br >> 32; \
rColUpTmp = s_br & 0x1FF; \
s_rg = (c1 + c2) >> 16; \
rColDownTmp = s_rg >> 32; \
gColDownTmp = s_rg & 0x1FF; \
rCol = (unsigned char)((yWeight0 * rColDownTmp + yWeight1 * rColUpTmp) >> \
PADN); \
gCol = (unsigned char)((yWeight0 * gColDownTmp + yWeight1 * gColUpTmp) >> \
PADN); \
bCol = (unsigned char)((yWeight0 * bColDownTmp + yWeight1 * bColUpTmp) >> \
PADN); \
*dnPix = TPixel32(rCol, gCol, bCol, upPix00->m);
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND_X_2 \
INTERNAL_LOOP_THE_SECOND \
++dnPix; \
INTERNAL_LOOP_THE_SECOND
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND_X_4 \
INTERNAL_LOOP_THE_SECOND_X_2 \
++dnPix; \
INTERNAL_LOOP_THE_SECOND_X_2
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND_X_8 \
INTERNAL_LOOP_THE_SECOND_X_4 \
++dnPix; \
INTERNAL_LOOP_THE_SECOND_X_4
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND_X_16 \
INTERNAL_LOOP_THE_SECOND_X_8 \
++dnPix; \
INTERNAL_LOOP_THE_SECOND_X_8
// -------------------------------------------------------------------------------------------------
#define INTERNAL_LOOP_THE_SECOND_X_32 \
INTERNAL_LOOP_THE_SECOND_X_16 \
++dnPix; \
INTERNAL_LOOP_THE_SECOND_X_16
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND \
xL = xL0 + (kMinX - 1) * deltaXL; \
yL += deltaYL; \
yI = yL >> PADN; \
yWeight1 = (yL & MASKN); \
yWeight0 = (1 << PADN) - yWeight1; \
dnPix = dnRow + xMin + kMinX; \
dnEndPix = dnRow + xMin + kMaxX + 1; \
for (; dnPix < dnEndPix - 32; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND_X_32; \
} \
for (; dnPix < dnEndPix - 16; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND_X_16; \
} \
for (; dnPix < dnEndPix - 8; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND_X_8; \
} \
for (; dnPix < dnEndPix - 4; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND_X_4; \
} \
for (; dnPix < dnEndPix - 2; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND_X_2; \
} \
for (; dnPix < dnEndPix; ++dnPix) { \
INTERNAL_LOOP_THE_SECOND \
}
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND_X_2 \
EXTERNAL_LOOP_THE_SECOND \
++kY; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_SECOND
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND_X_4 \
EXTERNAL_LOOP_THE_SECOND_X_2 \
++kY; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_SECOND_X_2
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND_X_8 \
EXTERNAL_LOOP_THE_SECOND_X_4 \
++kY; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_SECOND_X_4
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND_X_16 \
EXTERNAL_LOOP_THE_SECOND_X_8 \
++kY; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_SECOND_X_8
// -------------------------------------------------------------------------------------------------
#define EXTERNAL_LOOP_THE_SECOND_X_32 \
EXTERNAL_LOOP_THE_SECOND_X_16 \
++kY; \
dnRow += dnWrap; \
EXTERNAL_LOOP_THE_SECOND_X_16
#endif