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sane-project-backends/backend/plustek-pp_tpa.c

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/* @file plustek-pp_tpa.c
* @brief Here we find some adjustments according to the scan source.
* This file is ASIC P9800x specific
*
* based on sources acquired from Plustek Inc.
* Copyright (C) 1998 Plustek Inc.
* Copyright (C) 2000-2013 Gerhard Jaeger <gerhard@gjaeger.de>
* also based on the work done by Rick Bronson
*
* History:
* - 0.30 - initial version
* - 0.31 - Added some comments
* - 0.32 - no changes
* - 0.33 - new header
* - 0.34 - no changes
* - 0.35 - no changes
* - 0.36 - no changes
* - 0.37 - cosmetic changes
* - 0.38 - Replaced AllPointer by DataPointer
* - renamed this file from transform.c tpa.c
* - 0.39 - no changes
* - 0.40 - no changes
* - 0.41 - no changes
* - 0.42 - changed include names
* - 0.43 - no changes
* - 0.44 - fix format string issues, as Long types default to int32_t
* now
* .
* <hr>
* This file is part of the SANE package.
*
* 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, see <https://www.gnu.org/licenses/>.
*
* As a special exception, the authors of SANE give permission for
* additional uses of the libraries contained in this release of SANE.
*
* The exception is that, if you link a SANE library with other files
* to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public
* License. Your use of that executable is in no way restricted on
* account of linking the SANE library code into it.
*
* This exception does not, however, invalidate any other reasons why
* the executable file might be covered by the GNU General Public
* License.
*
* If you submit changes to SANE to the maintainers to be included in
* a subsequent release, you agree by submitting the changes that
* those changes may be distributed with this exception intact.
*
* If you write modifications of your own for SANE, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
* <hr>
*/
#include "plustek-pp_scan.h"
/***************************** local vars ************************************/
static UShort a_wGainString [] = {
50, 75, 100, 125, 150, 175, 200, 225,
250, 275, 300, 325, 350, 375, 400, 425,
450, 475, 500, 525, 550, 575, 600, 625,
650, 675, 700, 725, 750, 775, 800, 825
};
/*************************** local functions *********************************/
/*.............................................................................
*
*/
static void tpaP98SubNoise( pScanData ps, pULong pdwSum, pUShort pwShading,
ULong dwHilightOff, ULong dwShadowOff )
{
ULong dwPixels, dwLines, dwSum;
pUShort pw;
for (dwPixels = 4; dwPixels--; pdwSum++, pwShading++)
*pwShading = (UShort)(*pdwSum >> 5);
for (dwPixels = 0; dwPixels < (ps->dwShadingPixels - 4); dwPixels++,
pdwSum++, pwShading++) {
pw = (pUShort)ps->Shade.pHilight + dwHilightOff + dwPixels;
dwSum = 0;
for (dwLines = _DEF_BRIGHTEST_SKIP; dwLines--; pw += 5400UL)
dwSum += (ULong) *pw;
pw = ps->pwShadow + dwShadowOff + dwPixels;
for (dwLines = _DEF_DARKEST_SKIP; dwLines--; pw += 5400UL)
dwSum += (ULong) *pw;
*pwShading = (UShort)((*pdwSum - dwSum) / ps->Shade.dwDiv);
}
if (ps->dwShadingPixels != 5400UL) {
for (dwPixels = 2700UL; dwPixels--; pdwSum++, pwShading++)
*pwShading = (UShort)(*pdwSum >> 5);
}
}
/*.............................................................................
*
*/
static void tpaP98ShadingWaveformSum( pScanData ps )
{
DataPointer pd, pt;
ULong dw;
pd.pdw = (pULong)ps->pScanBuffer1;
pt.pw = (pUShort)ps->pScanBuffer1;
if ((ps->DataInf.dwScanFlag & SCANDEF_TPA ) ||
(0 == ps->bShadingTimeFlag)) {
if( ps->Shade.pHilight ) {
tpaP98SubNoise( ps, (pULong)ps->pScanBuffer1,
(pUShort)ps->pScanBuffer1, 0, 0);
tpaP98SubNoise( ps ,(pULong)ps->pScanBuffer1 + 5400UL,
(pUShort)ps->pScanBuffer1 + 5400UL,
ps->dwHilightCh, ps->dwShadowCh);
tpaP98SubNoise( ps, (pULong)ps->pScanBuffer1 + 5400UL * 2UL,
(pUShort)ps->pScanBuffer1 + 5400UL * 2UL,
ps->dwHilightCh * 2, ps->dwShadowCh * 2);
} else {
for (dw = 5400 * 3; dw; dw--, pt.pw++, pd.pdw++)
*pt.pw = (UShort)(*pd.pdw / 32); /* shift 5 bits */
}
} else {
if (02 == ps->bShadingTimeFlag ) {
for (dw = 5400 * 3; dw; dw--, pt.pw++, pd.pdw++)
*pt.pw = (UShort)(*pd.pdw / 16); /* shift 4 bits */
} else {
for (dw = 5400 * 3; dw; dw--, pt.pw++, pd.pdw++)
*pt.pw = (UShort)(*pd.pdw / 4); /* shift 2 bits */
}
}
}
/*.............................................................................
* get wReduceRedFactor, wReduceGreenFactor, wReduceBlueFactor
*/
static void tpaP98GetNegativeTempRamData( pScanData ps )
{
UShort wRedTemp, wGreenTemp, wBlueTemp;
UShort wRedShadingTemp, wGreenShadingTemp, wBlueShadingTemp;
ULong dw, dw1;
DataPointer p;
pULong pdwNegativeSumTemp;
pUShort pNegativeTempRam, pNegativeTempRam2;
ps->bFastMoveFlag = _FastMove_Low_C75_G150;
MotorP98GoFullStep( ps ,80 );
pNegativeTempRam = (pUShort)(ps->pScanBuffer1 + 5400 * 6);
pdwNegativeSumTemp = (pULong)(pNegativeTempRam + 960 * 3 * 2);
pNegativeTempRam2 = (pUShort)(pdwNegativeSumTemp + 960 * 3 * 4);
/* ClearNegativeSumBuffer() */
memset( pdwNegativeSumTemp, 0, (960 * 3 * 4));
/* SetReadNegativeTempRegister() */
ps->AsicReg.RD_Motor0Control = 0;
IOCmdRegisterToScanner( ps, ps->RegMotor0Control,
ps->AsicReg.RD_Motor0Control );
ps->AsicReg.RD_ModeControl = _ModeScan;
ps->AsicReg.RD_Motor0Control = _MotorOn + _MotorHEightStep + _MotorDirForward;
ps->AsicReg.RD_ModelControl = _ModelDpi600 + _LED_CONTROL + _LED_ACTIVITY;
ps->AsicReg.RD_Dpi = ps->PhysicalDpi;
if (!ps->wNegAdjustX) {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 + ps->Device.DataOriginX +
_Negative96OriginOffsetX * 2);
} else {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 + ps->Device.DataOriginX +
ps->wNegAdjustX);
}
ps->AsicReg.RD_Pixels = 960;
ps->AsicReg.RD_XStepTime = 32;
IOPutOnAllRegisters( ps );
/* NegativeMotorRunLoop() */
p.pb = ps->a_nbNewAdrPointer;
for (dw = _NUMBER_OF_SCANSTEPS / 8; dw; dw--, p.pdw++)
*p.pdw = 0x87808780;
IOSetToMotorRegister( ps );
for (dw1 = 16; dw1; dw1--) {
TimerDef timer;
MiscStartTimer( &timer, _SECOND );
while((IOReadFifoLength( ps ) < 960) && !MiscCheckTimer( &timer )) {
_DO_UDELAY(1);
}
/* ReadColorDataIn() - Read 1 RGB line */
ps->AsicReg.RD_ModeControl = _ModeFifoRSel;
IOReadScannerImageData( ps, (pUChar)pNegativeTempRam, 960 );
ps->AsicReg.RD_ModeControl = _ModeFifoGSel;
IOReadScannerImageData( ps, (pUChar)(pNegativeTempRam + 960), 960 );
ps->AsicReg.RD_ModeControl = _ModeFifoBSel;
IOReadScannerImageData( ps, (pUChar)(pNegativeTempRam + 960 * 2), 960 );
/* fillNegativeSum() */
for (dw = 0; dw < 960 * 3; dw++)
pdwNegativeSumTemp[dw] += ((pUShort) pNegativeTempRam)[dw];
/* one line */
if (IOReadFifoLength( ps ) <= (960 * 2))
IORegisterDirectToScanner( ps, ps->RegRefreshScanState );
}
/* AverageAndShift() */
for( dw = 0, dw1 = 0; dw < 240 * 3; dw++, dw1+=4 ) {
pNegativeTempRam[dw] = (UShort)((pdwNegativeSumTemp[dw1] +
pdwNegativeSumTemp[dw1+1] +
pdwNegativeSumTemp[dw1+2] +
pdwNegativeSumTemp[dw1+3]) / 128);
/* shift 6 bits */
}
/* NegativeAdd1() */
if (!ps->wNegAdjustX) {
dw1 = (ps->dwOffsetNegative + _Negative96OriginOffsetX * 2 * 2) / 2;
} else {
dw1 = (ps->dwOffsetNegative + ps->wNegAdjustX * 2) / 2;
}
/* do R shading average */
for (dw = 0; dw < 240; dw++, dw1 += 4) {
pNegativeTempRam2[dw] = (UShort)(
(((pUShort)ps->pScanBuffer1)[dw1] +
((pUShort)ps->pScanBuffer1)[dw1+1] +
((pUShort)ps->pScanBuffer1)[dw1+2] +
((pUShort)ps->pScanBuffer1)[dw1+3]) / 4);
}
/* NegativeAdd1() */
if (!ps->wNegAdjustX)
dw1 = (ps->dwOffsetNegative + 5400 * 2 + _Negative96OriginOffsetX * 2 * 2) / 2;
else
dw1 = (ps->dwOffsetNegative + 5400 * 2 + ps->wNegAdjustX * 2) / 2;
/* do G shading average */
for (; dw < 240 * 2; dw++, dw1 += 4) {
pNegativeTempRam2[dw] = (UShort)(
(((pUShort)ps->pScanBuffer1)[dw1] +
((pUShort)ps->pScanBuffer1)[dw1+1] +
((pUShort)ps->pScanBuffer1)[dw1+2] +
((pUShort)ps->pScanBuffer1)[dw1+3]) / 4);
}
/* NegativeAdd1() */
if (!ps->wNegAdjustX)
dw1 = (ps->dwOffsetNegative + 5400 * 4 + _Negative96OriginOffsetX * 2 * 2) / 2;
else
dw1 = (ps->dwOffsetNegative + 5400 * 4 + ps->wNegAdjustX * 2) / 2;
/* do B shading average */
for (; dw < 240 * 3; dw++, dw1 += 4) {
pNegativeTempRam2 [dw] = (UShort)(
(((pUShort)ps->pScanBuffer1)[dw1] +
((pUShort)ps->pScanBuffer1)[dw1+1] +
((pUShort)ps->pScanBuffer1)[dw1+2] +
((pUShort)ps->pScanBuffer1)[dw1+3]) / 4);
}
wRedTemp = wGreenTemp = wBlueTemp = 0;
wRedShadingTemp = wGreenShadingTemp = wBlueShadingTemp = 0;
/* FindMaxNegValue -- find R */
for (dw = 0; dw < 240; dw++) {
if (pNegativeTempRam[dw] >= wRedTemp &&
pNegativeTempRam[dw + 240] >= wGreenTemp &&
pNegativeTempRam[dw + 480] > wBlueTemp) {
wRedTemp = pNegativeTempRam[dw];
wGreenTemp = pNegativeTempRam[dw + 240];
wBlueTemp = pNegativeTempRam[dw + 480];
wRedShadingTemp = pNegativeTempRam2[dw];
wGreenShadingTemp = pNegativeTempRam2[dw + 240];
wBlueShadingTemp = pNegativeTempRam2[dw + 480];
}
}
/* GainAddX = (1/4)*DoubleX + 1/ 2 */
if ((ps->bRedGainIndex += (Byte)((wRedShadingTemp / wRedTemp) * 100 - 50) / 25) > 32)
ps->bRedGainIndex = 31;
if ((ps->bGreenGainIndex += (Byte)((wGreenShadingTemp / wGreenTemp) * 100 - 50) / 25) > 32)
ps->bGreenGainIndex = 31;
if ((ps->bBlueGainIndex += (Byte)((wBlueShadingTemp / wBlueTemp) * 100 - 50) / 25) > 32)
ps->bBlueGainIndex = 31;
}
/*.............................................................................
*
*/
static void tpaP98RecalculateNegativeShadingGain( pScanData ps )
{
Byte b[3];
UShort wSum, counter;
UShort w, w1, w2;
ULong dw, dw1;
pUChar pDest, pSrce, pNegativeTempRam;
pUChar pbReg[3];
TimerDef timer;
DataPointer p;
pNegativeTempRam = (pUChar)(ps->pScanBuffer1 + 5400 * 6);
/* AdjustDarkCondition () */
ps->Shade.pCcdDac->DarkDAC.Colors.Red = ps->bsPreRedDAC;
ps->Shade.pCcdDac->DarkDAC.Colors.Green = ps->bsPreGreenDAC;
ps->Shade.pCcdDac->DarkDAC.Colors.Blue = ps->bsPreBlueDAC;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Red = ps->wsDACCompareHighRed;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Red = ps->wsDACCompareLowRed;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Green = ps->wsDACCompareHighGreen;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Green = ps->wsDACCompareLowGreen;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Blue = ps->wsDACCompareHighBlue;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Blue = ps->wsDACCompareLowBlue;
DacP98FillGainOutDirectPort( ps );
/* ClearNegativeTempBuffer () */
memset( pNegativeTempRam, 0, (960 * 3 * 4));
/* GetNegGainValue () */
ps->PauseColorMotorRunStates( ps );
/* SetScanMode () set scan mode to Byte mode */
ps->AsicReg.RD_ScanControl |= _SCAN_BYTEMODE;
ps->AsicReg.RD_ScanControl &= 0xfd;
IOCmdRegisterToScanner(ps, ps->RegScanControl, ps->AsicReg.RD_ScanControl);
DacP98FillGainOutDirectPort( ps );
/* SetReadNegativeTempRegister() */
ps->AsicReg.RD_Motor0Control = 0;
IOCmdRegisterToScanner( ps, ps->RegMotor0Control,
ps->AsicReg.RD_Motor0Control );
ps->AsicReg.RD_ModeControl = _ModeScan;
ps->AsicReg.RD_Motor0Control = _MotorOn + _MotorHEightStep + _MotorDirForward;
ps->AsicReg.RD_ModelControl = _ModelDpi600 + _LED_CONTROL + _LED_ACTIVITY;
ps->AsicReg.RD_Dpi = ps->PhysicalDpi;
if (!ps->wNegAdjustX) {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 +
ps->Device.DataOriginX +
_Negative96OriginOffsetX * 2);
} else {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 + ps->Device.DataOriginX +
ps->wNegAdjustX);
}
ps->AsicReg.RD_Pixels = 960;
ps->AsicReg.RD_XStepTime = 32;
IOPutOnAllRegisters( ps );
/* ReReadNegativeTemp */
MiscStartTimer( &timer, _SECOND );
while((IOReadFifoLength( ps) < 960) && !MiscCheckTimer( &timer )) {
_DO_UDELAY(1); /* 1 us delay */
}
/* ReadColorDataIn() - Read 1 RGB line */
ps->AsicReg.RD_ModeControl = _ModeFifoRSel;
IOReadScannerImageData( ps, pNegativeTempRam, 960);
ps->AsicReg.RD_ModeControl = _ModeFifoGSel;
IOReadScannerImageData( ps, pNegativeTempRam + 960, 960);
ps->AsicReg.RD_ModeControl = _ModeFifoBSel;
IOReadScannerImageData( ps, pNegativeTempRam + 960 * 2, 960);
/* FindRGBGainValue(); */
pDest = pSrce = pNegativeTempRam;
/* ReAdjustGainAverage() */
for (dw1 = 0; dw1 < (960 * 3) / 16; dw1++, pDest++) {
for (dw = 0, wSum = 0; dw < 16; dw++, pSrce++)
wSum += *pSrce;
*pDest = wSum / 16;
}
/* FindTheMaxGainValue */
for (w = 0, p.pb = pNegativeTempRam; w < 3; w++) {
for (dw = 960 / 16, b[w] = 0; dw; dw--, p.pb++) {
if (b[w] < *p.pb)
b[w] = *p.pb;
}
}
ps->bRedHigh = b[0];
ps->bGreenHigh = b[1];
ps->bBlueHigh = b[2];
/* ModifyExposureTime () */
if ((ps->bRedHigh < _GAIN_LOW) ||
(ps->bGreenHigh < _GAIN_LOW) || (ps->bBlueHigh < _GAIN_LOW)) {
ps->AsicReg.RD_LineControl = 192;
}
IOCmdRegisterToScanner( ps, ps->RegLineControl,
ps->AsicReg.RD_LineControl );
counter = 0;
/* ReAdjustRGBGain () */
for (w1 = 0; w1 < 16; w1++) {
ps->PauseColorMotorRunStates( ps );
DacP98FillGainOutDirectPort( ps );
/* SetReadNegativeTempRegister () */
ps->AsicReg.RD_Motor0Control = 0;
IOCmdRegisterToScanner( ps, ps->RegMotor0Control,
ps->AsicReg.RD_Motor0Control );
ps->AsicReg.RD_ModeControl = _ModeScan;
ps->AsicReg.RD_Motor0Control = _MotorOn + _MotorHEightStep + _MotorDirForward;
ps->AsicReg.RD_ModelControl = _ModelDpi600 + _LED_CONTROL + _LED_ACTIVITY;
ps->AsicReg.RD_Dpi = ps->PhysicalDpi;
if (!ps->wNegAdjustX) {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 +
ps->Device.DataOriginX +
_Negative96OriginOffsetX * 2);
} else {
ps->AsicReg.RD_Origin = (UShort)(ps->dwOffset70 +
ps->Device.DataOriginX +
ps->wNegAdjustX);
}
ps->AsicReg.RD_Pixels = 960;
ps->AsicReg.RD_XStepTime = 32;
IOPutOnAllRegisters( ps );
/* ReReadNegativeTemp () */
MiscStartTimer( &timer, _SECOND );
while((IOReadFifoLength( ps ) < 960) && !MiscCheckTimer( &timer)) {
_DO_UDELAY(1);
}
/* ReadColorDataIn() - Read 1 RGB line */
ps->AsicReg.RD_ModeControl = _ModeFifoRSel;
IOReadScannerImageData( ps, pNegativeTempRam, 960 );
ps->AsicReg.RD_ModeControl = _ModeFifoGSel;
IOReadScannerImageData( ps, pNegativeTempRam + 960, 960);
ps->AsicReg.RD_ModeControl = _ModeFifoBSel;
IOReadScannerImageData( ps ,pNegativeTempRam + 960 * 2, 960);
/* ReAdjustGainAverage() */
pDest = pSrce = pNegativeTempRam;
for( dw1 = 0; dw1 < (960 * 3) / 16; dw1++, pDest++ ) {
for( dw = 0, wSum = 0; dw < 16; dw++, pSrce++ )
wSum += *pSrce;
*pDest = wSum / 16;
}
/* FindTheMaxGainValue */
pbReg[0] = &ps->bRedGainIndex;
pbReg[1] = &ps->bGreenGainIndex;
pbReg[2] = &ps->bBlueGainIndex;
for (w = 0, p.pb = pNegativeTempRam; w < 3; w++) {
for (dw = 960 / 16, b [w] = 0; dw; dw--, p.pb++) {
if (b[w] < *p.pb)
b[w] = *p.pb;
}
if (b [w] < _GAIN_LOW) {
if (( _GAIN_P98_HIGH - b [w]) < b [w])
*(pbReg [w]) += 1;
else
*(pbReg [w]) += 4;
} else {
if (b [w] > _GAIN_P98_HIGH)
*(pbReg [w]) -= 1;
}
}
for (w2 = 0; w2 < 3; w2++) {
if (*(pbReg[w2]) > 31)
(*(pbReg[w2])) = 31;
}
if ((b[0] == 0) || (b[1] == 0) || (b[2] == 0)) {
counter++;
if (counter < 16) {
w1--;
ps->bRedGainIndex -= 4;
ps->bGreenGainIndex -= 4;
ps->bBlueGainIndex -= 4;
}
}
}
DacP98FillGainOutDirectPort( ps );
ps->Shade.DarkOffset.Colors.Red = 0;
ps->Shade.DarkOffset.Colors.Green = 0;
ps->Shade.DarkOffset.Colors.Blue = 0;
ps->OpenScanPath( ps );
DacP98FillShadingDarkToShadingRegister( ps );
ps->CloseScanPath( ps );
DacP98AdjustDark( ps );
}
/*.............................................................................
*
*/
static void tpaP98RecalculateShadingGainandData( pScanData ps )
{
DataPointer p;
ULong dw;
UShort filmAdjustX;
UShort wOldRedGain, wOldGreenGain, wOldBlueGain;
UShort wNewRedGain, wNewGreenGain, wNewBlueGain;
/* AdjustDarkCondition () */
ps->Shade.pCcdDac->DarkDAC.Colors.Red = ps->bsPreRedDAC;
ps->Shade.pCcdDac->DarkDAC.Colors.Green = ps->bsPreGreenDAC;
ps->Shade.pCcdDac->DarkDAC.Colors.Blue = ps->bsPreBlueDAC;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Red = ps->wsDACCompareHighRed;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Red = ps->wsDACCompareLowRed;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Green = ps->wsDACCompareHighGreen;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Green = ps->wsDACCompareLowGreen;
ps->Shade.pCcdDac->DarkCmpHi.Colors.Blue = ps->wsDACCompareHighBlue;
ps->Shade.pCcdDac->DarkCmpLo.Colors.Blue = ps->wsDACCompareLowBlue;
wOldRedGain = a_wGainString[ps->bRedGainIndex] * 100/ps->wReduceRedFactor;
/* SearchNewGain() */
for (ps->bRedGainIndex = 0; ps->bRedGainIndex < 32; ps->bRedGainIndex++) {
if (wOldRedGain < a_wGainString[ps->bRedGainIndex])
break;
}
if (0 == ps->bRedGainIndex)
ps->bRedGainIndex ++;
wNewRedGain = a_wGainString[--ps->bRedGainIndex];
wOldGreenGain = a_wGainString[ps->bGreenGainIndex]*100/
ps->wReduceGreenFactor;
/* SearchNewGain() */
for (ps->bGreenGainIndex = 0;
ps->bGreenGainIndex < 32; ps->bGreenGainIndex++) {
if (wOldGreenGain < a_wGainString[ps->bGreenGainIndex])
break;
}
if (0 == ps->bGreenGainIndex)
ps->bGreenGainIndex ++;
wNewGreenGain = a_wGainString[--ps->bGreenGainIndex];
wOldBlueGain = a_wGainString[ps->bBlueGainIndex]*100/ps->wReduceBlueFactor;
/* SearchNewGain() */
for (ps->bBlueGainIndex = 0;ps->bBlueGainIndex < 32;ps->bBlueGainIndex++) {
if (wOldBlueGain < a_wGainString[ps->bBlueGainIndex])
break;
}
if (0 == ps->bBlueGainIndex)
ps->bBlueGainIndex ++;
wNewBlueGain = a_wGainString[--ps->bBlueGainIndex];
DacP98FillGainOutDirectPort( ps );
ps->Shade.DarkOffset.Colors.Red = 0;
ps->Shade.DarkOffset.Colors.Green = 0;
ps->Shade.DarkOffset.Colors.Blue = 0;
ps->OpenScanPath( ps );
DacP98FillShadingDarkToShadingRegister( ps );
ps->CloseScanPath( ps );
DacP98AdjustDark( ps );
/* RecalculateTransparencyImage() */
if (ps->DataInf.dwScanFlag & SCANDEF_Transparency) {
filmAdjustX = ps->wPosAdjustX;
} else {
filmAdjustX = ps->wNegAdjustX;
}
if (!filmAdjustX) {
p.pw = (pUShort)(ps->pScanBuffer1 + ps->dwOffsetNegative +
_Negative96OriginOffsetX * 2);
} else {
p.pw = (pUShort)(ps->pScanBuffer1 +
ps->dwOffsetNegative + filmAdjustX);
}
/* RecalculateData() */
for (dw= 0; dw < _NegativePageWidth * 2 + 132; dw++, p.pw++)
*p.pw = *p.pw * wNewRedGain / wOldRedGain;
if (!ps->wNegAdjustX) {
p.pw = (pUShort)(ps->pScanBuffer1 + 5400 * 2 +
ps->dwOffsetNegative + _Negative96OriginOffsetX * 2);
} else {
p.pw = (pUShort)(ps->pScanBuffer1 + 5400 * 2 +
ps->dwOffsetNegative + ps->wNegAdjustX);
}
/* RecalculateData() */
for (dw= 0; dw < _NegativePageWidth * 2 + 132; dw++, p.pw++)
*p.pw = *p.pw * wNewGreenGain / wOldGreenGain;
if (!ps->wNegAdjustX) {
p.pw = (pUShort)(ps->pScanBuffer1 + 5400 * 4 +
ps->dwOffsetNegative + _Negative96OriginOffsetX * 2);
} else {
p.pw = (pUShort)(ps->pScanBuffer1 + 5400 * 4 +
ps->dwOffsetNegative + ps->wNegAdjustX);
}
/* RecalculateData() - 64 + dwoffset70 */
for (dw= 0; dw < _NegativePageWidth * 2 + 132; dw++, p.pw++)
*p.pw = *p.pw * wNewBlueGain / wOldBlueGain;
}
/************************ exported functions *********************************/
/*.............................................................................
* perform some adjustments according to the source (normal, transparency etc)
*/
_LOC void TPAP98001AverageShadingData( pScanData ps )
{
DBG( DBG_LOW, "TPAP98001AverageShadingData()\n" );
ps->wNegAdjustX = 0;
ps->wPosAdjustX = 0;
ps->dwOffsetNegative = 0;
tpaP98ShadingWaveformSum( ps );
/*
* CHANGE: to support Grayscale images in transparency and negative mode
* original code: if ((ps->DataInf.wPhyDataType >= COLOR_TRUE24) &&
*/
if((ps->DataInf.wPhyDataType >= COLOR_256GRAY) &&
(ps->DataInf.dwScanFlag & SCANDEF_TPA)) {
if (((ps->DataInf.dwScanFlag & SCANDEF_Negative) && !ps->wNegAdjustX) ||
((ps->DataInf.dwScanFlag & SCANDEF_Transparency) && !ps->wPosAdjustX)) {
Long dwLeft, dwRight;
pUShort pw = (pUShort)ps->pScanBuffer1;
for (dwLeft = 0; dwLeft < 5400; dwLeft++)
if (pw[dwLeft] >= 600)
break;
for (dwRight = 4600; dwRight; dwRight--)
if (pw[dwRight] >= 600)
break;
DBG( DBG_LOW, "_TPAPageWidth = %u, _NegativePageWidth = %u\n"
"right = %d, left = %d --> right = %d\n",
_TPAPageWidth, _NegativePageWidth,
dwRight, dwLeft, (((Long)dwRight-(Long)dwLeft)/2));
dwRight = (dwRight - dwLeft) / 2;
if (ps->DataInf.dwScanFlag & SCANDEF_Negative) {
if (dwRight >= (Long)_NegativePageWidth) {
ps->wNegAdjustX = (UShort)(dwRight - _NegativePageWidth +
dwLeft - ps->dwOffset70 -
ps->Device.DataOriginX + 4U);
if( ps->wNegAdjustX > (_Negative96OriginOffsetX * 2U))
ps->wNegAdjustX = (_Negative96OriginOffsetX * 2U);
ps->DataInf.crImage.x += ps->wNegAdjustX;
} else {
ps->DataInf.crImage.x += (_Negative96OriginOffsetX * 2U);
}
} else {
if (dwRight >= (Long)_TPAPageWidth) {
ps->wPosAdjustX = (UShort)(dwRight - _TPAPageWidth +
dwLeft - ps->dwOffset70 -
ps->Device.DataOriginX + 4U);
if( ps->wPosAdjustX > (_Transparency96OriginOffsetX * 2U))
ps->wPosAdjustX = (_Transparency96OriginOffsetX * 2U);
ps->DataInf.crImage.x += ps->wPosAdjustX;
} else {
ps->DataInf.crImage.x += (_Transparency96OriginOffsetX * 2U);
}
}
}
#if 0
else {
/* CHANGE: as we always reset the values, we can ignore this code..*/
if( ps->DataInf.dwScanFlag & SCANDEF_Negative )
ps->DataInf.crImage.x += ps->wNegAdjustX;
else
ps->DataInf.crImage.x += ps->wPosAdjustX;
}
#endif
if( ps->DataInf.dwScanFlag & SCANDEF_Negative ) {
ps->dwOffsetNegative = (ps->dwOffset70 + 64+4) * 2;
tpaP98GetNegativeTempRamData( ps );
tpaP98RecalculateNegativeShadingGain( ps );
} else {
ps->wReduceRedFactor = 0x3e;
ps->wReduceGreenFactor = 0x39;
ps->wReduceBlueFactor = 0x42;
if( ps->Device.bCCDID == _CCD_518 ) {
ps->wReduceRedFactor = 55;
ps->wReduceGreenFactor = 55;
ps->wReduceBlueFactor = 55;
}
if( ps->Device.bCCDID == _CCD_3797 ) {
ps->wReduceRedFactor = 42;
ps->wReduceGreenFactor = 50;
ps->wReduceBlueFactor = 50;
}
tpaP98RecalculateShadingGainandData( ps );
}
}
}
/*.............................................................................
* perform some adjustments according to the source (normal, transparency etc)
*/
_LOC void TPAP98003FindCenterPointer( pScanData ps )
{
ULong i;
ULong width;
ULong left;
ULong right;
pRGBUShortDef pwSum = ps->Bufs.b2.pSumRGB;
if( ps->DataInf.dwScanFlag & SCANDEF_Negative )
width = _NEG_PAGEWIDTH600;
else
width = _NEG_PAGEWIDTH600 - 94;
/* 2.54 cm tolerance */
left = ps->Device.DataOriginX + _NEG_ORG_OFFSETX * 2 - 600;
right = ps->Device.DataOriginX + _NEG_ORG_OFFSETX * 2 +
_NEG_PAGEWIDTH600 + 600;
for( i = 5400UL - left, pwSum = ps->Bufs.b2.pSumRGB; i--; left++)
if( pwSum[left].Red > _NEG_EDGE_VALUE &&
pwSum[left].Green > _NEG_EDGE_VALUE &&
pwSum[left].Blue > _NEG_EDGE_VALUE)
break;
for( i = 5400UL - left, pwSum = ps->Bufs.b2.pSumRGB; i--; right--)
if( pwSum[right].Red > _NEG_EDGE_VALUE &&
pwSum[right].Green > _NEG_EDGE_VALUE &&
pwSum[right].Blue > _NEG_EDGE_VALUE)
break;
if((right <= left) || ((right - left) < width)) {
if( ps->DataInf.dwScanFlag & SCANDEF_Negative )
ps->Scan.negBegin = ps->Device.DataOriginX + _NEG_ORG_OFFSETX * 2;
else
ps->Scan.posBegin = ps->Device.DataOriginX + _POS_ORG_OFFSETX * 2;
} else {
if( ps->DataInf.dwScanFlag & SCANDEF_Negative )
ps->Scan.negBegin = (right + left) / 2UL - _NEG_PAGEWIDTH;
else
ps->Scan.posBegin = (right + left) / 2UL - _POS_PAGEWIDTH;
}
}
/*.............................................................................
* this function does some reshading, when scanning negatives on an ASIC 98003
* based scanner
*/
_LOC void TPAP98003Reshading( pScanData ps )
{
Byte bHi[3], bHiLeft[3], bHiRight[3];
ULong i, dwR, dwG, dwB, dwSum;
ULong dwIndex, dwIndexRight, dwIndexLeft;
DataPointer RedPtr, GreenPtr, BluePtr;
TimerDef timer;
bHi[0] = bHi[1] = bHi[2] = 0;
/* CHECK: Why this ??? */
#if 1
ps->Scan.negScan[1].exposureTime = 144;
ps->Scan.negScan[1].xStepTime = 18;
ps->Scan.negScan[2].exposureTime = 144;
ps->Scan.negScan[2].xStepTime = 36;
ps->Scan.negScan[3].exposureTime = 144;
ps->Scan.negScan[3].xStepTime = 72;
ps->Scan.negScan[4].exposureTime = 144;
ps->Scan.negScan[4].xStepTime = 144;
#endif
ps->Shade.wExposure = ps->Scan.negScan[ps->Scan.dpiIdx].exposureTime;
ps->Shade.wXStep = ps->Scan.negScan[ps->Scan.dpiIdx].xStepTime;
MiscStartTimer( &timer, _SECOND );
while(!(IOGetScanState(ps, _TRUE) & _SCANSTATE_STOP) &&
(_OK == MiscCheckTimer(&timer)));
IODataToRegister( ps, ps->RegXStepTime,
(Byte)(ps->AsicReg.RD_LineControl >> 4));
_DODELAY( 12 );
MotorP98003PositionYProc( ps, _NEG_SHADING_OFFS );
IODataToRegister( ps, ps->RegXStepTime, ps->AsicReg.RD_XStepTime );
ps->AsicReg.RD_ScanControl = _SCAN_BYTEMODE;
IOSelectLampSource( ps );
IODataToRegister( ps, ps->RegLineControl, _LOBYTE(ps->Shade.wExposure));
IODataToRegister( ps, ps->RegXStepTime, _LOBYTE(ps->Shade.wXStep));
ps->AsicReg.RD_LineControl = _LOBYTE(ps->Shade.wExposure);
ps->AsicReg.RD_ExtLineControl = _HIBYTE(ps->Shade.wExposure);
ps->AsicReg.RD_XStepTime = (Byte)(ps->Shade.wExposure);
ps->AsicReg.RD_ModeControl = _ModeScan;
ps->AsicReg.RD_Motor0Control = _FORWARD_MOTOR;
ps->AsicReg.RD_Origin = (UShort)ps->Scan.negBegin;
ps->AsicReg.RD_Pixels = _NEG_PAGEWIDTH600;
memset( ps->a_nbNewAdrPointer, 0, _SCANSTATE_BYTES );
/* put 9 scan states to make sure there are 8 lines available at least */
for( i = 0; i <= 12; i++)
ps->a_nbNewAdrPointer[i] = 0x8f;
IOPutOnAllRegisters( ps );
_DODELAY( 70 );
/* prepare the buffers... */
memset( ps->Bufs.TpaBuf.pb, 0, _SizeTpaDataBuf );
RedPtr.pb = ps->Bufs.b1.pShadingMap;
GreenPtr.pb = RedPtr.pb + _NEG_PAGEWIDTH600;
BluePtr.pb = GreenPtr.pb + _NEG_PAGEWIDTH600;
for( dwSum = 8; dwSum--; ) {
IOReadOneShadingLine( ps, ps->Bufs.b1.pShadingMap, _NEG_PAGEWIDTH600 );
for( i = 0; i < _NEG_PAGEWIDTH600; i++) {
ps->Bufs.TpaBuf.pusrgb[i].Red += RedPtr.pb[i];
ps->Bufs.TpaBuf.pusrgb[i].Green += GreenPtr.pb[i];
ps->Bufs.TpaBuf.pusrgb[i].Blue += BluePtr.pb[i];
}
}
for( i = 0; i < (_NEG_PAGEWIDTH600 * 3UL); i++ )
ps->Bufs.TpaBuf.pb[i] = ps->Bufs.TpaBuf.pw[i] >> 3;
RedPtr.pb = ps->Bufs.TpaBuf.pb;
/* Convert RGB to gray scale (Brightness), and average 16 pixels */
for( bHiRight[1] = 0, i = dwIndexRight = 0;
i < _NEG_PAGEWIDTH600 / 2; i += 16 ) {
bHiRight [0] =
(Byte)(((((ULong) RedPtr.pbrgb [i].Red +
(ULong) RedPtr.pbrgb[i + 1].Red +
(ULong) RedPtr.pbrgb[i + 2].Red +
(ULong) RedPtr.pbrgb[i + 3].Red +
(ULong) RedPtr.pbrgb[i + 4].Red +
(ULong) RedPtr.pbrgb[i + 5].Red +
(ULong) RedPtr.pbrgb[i + 6].Red +
(ULong) RedPtr.pbrgb[i + 7].Red +
(ULong) RedPtr.pbrgb[i + 8].Red +
(ULong) RedPtr.pbrgb[i + 9].Red +
(ULong) RedPtr.pbrgb[i + 10].Red +
(ULong) RedPtr.pbrgb[i + 11].Red +
(ULong) RedPtr.pbrgb[i + 12].Red +
(ULong) RedPtr.pbrgb[i + 13].Red +
(ULong) RedPtr.pbrgb[i + 14].Red +
(ULong) RedPtr.pbrgb[i + 15].Red) >> 4) * 30UL +
(((ULong) RedPtr.pbrgb[i].Green +
(ULong) RedPtr.pbrgb[i + 1].Green +
(ULong) RedPtr.pbrgb[i + 2].Green +
(ULong) RedPtr.pbrgb[i + 3].Green +
(ULong) RedPtr.pbrgb[i + 4].Green +
(ULong) RedPtr.pbrgb[i + 5].Green +
(ULong) RedPtr.pbrgb[i + 6].Green +
(ULong) RedPtr.pbrgb[i + 7].Green +
(ULong) RedPtr.pbrgb[i + 8].Green +
(ULong) RedPtr.pbrgb[i + 9].Green +
(ULong) RedPtr.pbrgb[i + 10].Green +
(ULong) RedPtr.pbrgb[i + 11].Green +
(ULong) RedPtr.pbrgb[i + 12].Green +
(ULong) RedPtr.pbrgb[i + 13].Green +
(ULong) RedPtr.pbrgb[i + 14].Green +
(ULong) RedPtr.pbrgb[i + 15].Green) >> 4) * 59UL +
(((ULong) RedPtr.pbrgb[i].Blue +
(ULong) RedPtr.pbrgb[i + 1].Blue +
(ULong) RedPtr.pbrgb[i + 2].Blue +
(ULong) RedPtr.pbrgb[i + 3].Blue +
(ULong) RedPtr.pbrgb[i + 4].Blue +
(ULong) RedPtr.pbrgb[i + 5].Blue +
(ULong) RedPtr.pbrgb[i + 6].Blue +
(ULong) RedPtr.pbrgb[i + 7].Blue +
(ULong) RedPtr.pbrgb[i + 8].Blue +
(ULong) RedPtr.pbrgb[i + 9].Blue +
(ULong) RedPtr.pbrgb[i + 10].Blue +
(ULong) RedPtr.pbrgb[i + 11].Blue +
(ULong) RedPtr.pbrgb[i + 12].Blue +
(ULong) RedPtr.pbrgb[i + 13].Blue +
(ULong) RedPtr.pbrgb[i + 14].Blue +
(ULong) RedPtr.pbrgb[i + 15].Blue) >> 4) * 11UL) / 100UL);
if( bHiRight[1] < bHiRight[0] ) {
bHiRight[1] = bHiRight[0];
dwIndexRight = i;
}
}
/* Convert RGB to gray scale (Brightness), and average 16 pixels */
for( bHiLeft[1] = 0, i = dwIndexLeft = _NEG_PAGEWIDTH / 2;
i < _NEG_PAGEWIDTH600; i += 16 ) {
bHiLeft [0] =
(Byte)(((((ULong) RedPtr.pbrgb[i].Red +
(ULong) RedPtr.pbrgb[i + 1].Red +
(ULong) RedPtr.pbrgb[i + 2].Red +
(ULong) RedPtr.pbrgb[i + 3].Red +
(ULong) RedPtr.pbrgb[i + 4].Red +
(ULong) RedPtr.pbrgb[i + 5].Red +
(ULong) RedPtr.pbrgb[i + 6].Red +
(ULong) RedPtr.pbrgb[i + 7].Red +
(ULong) RedPtr.pbrgb[i + 8].Red +
(ULong) RedPtr.pbrgb[i + 9].Red +
(ULong) RedPtr.pbrgb[i + 10].Red +
(ULong) RedPtr.pbrgb[i + 11].Red +
(ULong) RedPtr.pbrgb[i + 12].Red +
(ULong) RedPtr.pbrgb[i + 13].Red +
(ULong) RedPtr.pbrgb[i + 14].Red +
(ULong) RedPtr.pbrgb[i + 15].Red) >> 4) * 30UL +
(((ULong) RedPtr.pbrgb[i].Green +
(ULong) RedPtr.pbrgb[i + 1].Green +
(ULong) RedPtr.pbrgb[i + 2].Green +
(ULong) RedPtr.pbrgb[i + 3].Green +
(ULong) RedPtr.pbrgb[i + 4].Green +
(ULong) RedPtr.pbrgb[i + 5].Green +
(ULong) RedPtr.pbrgb[i + 6].Green +
(ULong) RedPtr.pbrgb[i + 7].Green +
(ULong) RedPtr.pbrgb[i + 8].Green +
(ULong) RedPtr.pbrgb[i + 9].Green +
(ULong) RedPtr.pbrgb[i + 10].Green +
(ULong) RedPtr.pbrgb[i + 11].Green +
(ULong) RedPtr.pbrgb[i + 12].Green +
(ULong) RedPtr.pbrgb[i + 13].Green +
(ULong) RedPtr.pbrgb[i + 14].Green +
(ULong) RedPtr.pbrgb[i + 15].Green) >> 4) * 59UL +
(((ULong) RedPtr.pbrgb[i].Blue +
(ULong) RedPtr.pbrgb[i + 1].Blue +
(ULong) RedPtr.pbrgb[i + 2].Blue +
(ULong) RedPtr.pbrgb[i + 3].Blue +
(ULong) RedPtr.pbrgb[i + 4].Blue +
(ULong) RedPtr.pbrgb[i + 5].Blue +
(ULong) RedPtr.pbrgb[i + 6].Blue +
(ULong) RedPtr.pbrgb[i + 7].Blue +
(ULong) RedPtr.pbrgb[i + 8].Blue +
(ULong) RedPtr.pbrgb[i + 9].Blue +
(ULong) RedPtr.pbrgb[i + 10].Blue +
(ULong) RedPtr.pbrgb[i + 11].Blue +
(ULong) RedPtr.pbrgb[i + 12].Blue +
(ULong) RedPtr.pbrgb[i + 13].Blue +
(ULong) RedPtr.pbrgb[i + 14].Blue +
(ULong) RedPtr.pbrgb[i + 15].Blue) >> 4) * 11UL) / 100UL);
if( bHiLeft[1] < bHiLeft[0] ) {
bHiLeft[1] = bHiLeft[0];
dwIndexLeft = i;
}
}
if((bHiLeft[1] < 200) && (bHiRight[1] < 200)) {
if( bHiLeft[1] < bHiRight[1] )
dwIndex = dwIndexRight;
else
dwIndex = dwIndexLeft;
} else {
if( bHiLeft[1] > 200 )
dwIndex = dwIndexRight;
else
dwIndex = dwIndexLeft;
}
/* Get the hilight */
RedPtr.pusrgb = ps->Bufs.b2.pSumRGB + dwIndex +
ps->AsicReg.RD_Origin + _SHADING_BEGINX;
for( dwR = dwG = dwB = 0, i = 16; i--; RedPtr.pusrgb++ ) {
dwR += RedPtr.pusrgb->Red;
dwG += RedPtr.pusrgb->Green;
dwB += RedPtr.pusrgb->Blue;
}
dwR >>= 8;
dwG >>= 8;
dwB >>= 8;
if( dwR > dwG && dwR > dwB )
ps->Shade.bGainHigh = (Byte)dwR; /* >> 4 for average, >> 4 to 8-bit */
else {
if( dwG > dwR && dwG > dwB )
ps->Shade.bGainHigh = (Byte)dwG;
else
ps->Shade.bGainHigh = (Byte)dwB;
}
ps->Shade.bGainHigh = (Byte)(ps->Shade.bGainHigh - 0x18);
ps->Shade.bGainLow = (Byte)(ps->Shade.bGainHigh - 0x10);
/* Reshading to get the new gain */
ps->Shade.Hilight.Colors.Red = 0;
ps->Shade.Hilight.Colors.Green = 0;
ps->Shade.Hilight.Colors.Blue = 0;
ps->Shade.Gain.Colors.Red++;
ps->Shade.Gain.Colors.Green++;
ps->Shade.Gain.Colors.Blue++;
ps->Shade.fStop = _FALSE;
RedPtr.pb = ps->Bufs.b1.pShadingMap + dwIndex;
GreenPtr.pb = RedPtr.pb + _NEG_PAGEWIDTH600;
BluePtr.pb = GreenPtr.pb + _NEG_PAGEWIDTH600;
for( i = 16; i-- && !ps->Shade.fStop;) {
ps->Shade.fStop = _TRUE;
DacP98003FillToDAC( ps, &ps->Device.RegDACGain, &ps->Shade.Gain );
IODataToRegister( ps, ps->RegModeControl, _ModeIdle );
ps->AsicReg.RD_ScanControl = _SCAN_BYTEMODE;
IOSelectLampSource( ps );
ps->AsicReg.RD_ModeControl = _ModeScan;
ps->AsicReg.RD_StepControl = _MOTOR0_SCANSTATE;
ps->AsicReg.RD_Motor0Control = _FORWARD_MOTOR;
memset( ps->a_nbNewAdrPointer, 0, _SCANSTATE_BYTES );
ps->a_nbNewAdrPointer[1] = 0x77;
IOPutOnAllRegisters( ps );
_DODELAY( 50 );
if(IOReadOneShadingLine(ps,ps->Bufs.b1.pShadingMap,_NEG_PAGEWIDTH600)) {
bHi[0] = DacP98003SumGains( RedPtr.pb, 32 );
bHi[1] = DacP98003SumGains( GreenPtr.pb, 32 );
bHi[2] = DacP98003SumGains( BluePtr.pb, 32 );
if( !bHi[0] || !bHi[1] || !bHi[2]) {
ps->Shade.fStop = _FALSE;
} else {
DacP98003AdjustGain( ps, _CHANNEL_RED, bHi[0] );
DacP98003AdjustGain( ps, _CHANNEL_GREEN, bHi[1] );
DacP98003AdjustGain( ps, _CHANNEL_BLUE, bHi[2] );
}
} else
ps->Shade.fStop = _FALSE;
}
DacP98003FillToDAC( ps, &ps->Device.RegDACGain, &ps->Shade.Gain );
/* Set RGB Gain */
if( dwR && dwG && dwB ) {
if(ps->Device.bCCDID == _CCD_3797 || ps->Device.bDACType == _DA_ESIC) {
ps->Shade.pCcdDac->GainResize.Colors.Red =
(UShort)((ULong)bHi[0] * 100UL / dwR);
ps->Shade.pCcdDac->GainResize.Colors.Green =
(UShort)((ULong)bHi[1] * 100UL / dwG);
ps->Shade.pCcdDac->GainResize.Colors.Blue =
(UShort)((ULong)bHi[2] * 100UL / dwB);
} else {
ps->Shade.pCcdDac->GainResize.Colors.Red =
(UShort)((ULong)bHi[0] * 90UL / dwR);
ps->Shade.pCcdDac->GainResize.Colors.Green =
(UShort)((ULong)bHi[1] * 77UL / dwG);
ps->Shade.pCcdDac->GainResize.Colors.Blue =
(UShort)((ULong)bHi[2] * 73UL / dwB);
}
ps->Shade.DarkOffset.Colors.Red +=
(UShort)((dwR > bHi[0]) ? dwR - bHi[0] : 0);
ps->Shade.DarkOffset.Colors.Green +=
(UShort)((dwG > bHi[1]) ? dwG - bHi[1] : 0);
ps->Shade.DarkOffset.Colors.Blue +=
(UShort)((dwB > bHi[2]) ? dwB - bHi[2] : 0);
if( ps->Device.bDACType != _DA_ESIC && ps->Device.bCCDID != _CCD_3799 ) {
ps->Shade.DarkOffset.Colors.Red =
(UShort)(ps->Shade.DarkOffset.Colors.Red *
ps->Shade.pCcdDac->GainResize.Colors.Red / 100UL);
ps->Shade.DarkOffset.Colors.Green =
(UShort)(ps->Shade.DarkOffset.Colors.Green *
ps->Shade.pCcdDac->GainResize.Colors.Green / 100UL);
ps->Shade.DarkOffset.Colors.Blue =
(UShort)(ps->Shade.DarkOffset.Colors.Blue *
ps->Shade.pCcdDac->GainResize.Colors.Blue / 100UL);
}
}
/* AdjustDark () */
ps->AsicReg.RD_Origin = _SHADING_BEGINX;
ps->AsicReg.RD_Pixels = 5400;
}
/* END PLUSTEK-PP_TPA.C .....................................................*/
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