/*
This file is part of Filter Foundry, a filter plugin for Adobe Photoshop
Copyright (C) 2003-2009 Toby Thain, toby@telegraphics.com.au
Copyright (C) 2018-2019 Daniel Marschall, ViaThinkSoft
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* This is PLATFORM INDEPENDENT user interface code - mainly dialog logic */
#include "preview.h"
#ifdef MAC_ENV
#include <fp.h>
#endif
#include <math.h>
#include "PIProperties.h"
extern FilterRecordPtr gpb;
PSPixelMap preview_pmap;
PSPixelMask preview_pmask;
Handle preview_handle;
UIRECT preview_rect;
int preview_w,preview_h,previewerr = false,needall = false,needinput = true;
Point preview_scroll;
Boolean preview_complete = false;
double zoomfactor,fitzoom;
Boolean setup_preview(FilterRecordPtr pb, int nplanes){
double zh,zv;
if(pb->displayPixels && pb->advanceState){
// Possibility 1: Only the part of the preview rect is filled with background color,
// which can be occupied by image data if zoom factor becomes 100%
/*
preview_w = MIN(preview_rect.right - preview_rect.left,
pb->filterRect.right - pb->filterRect.left);
preview_h = MIN(preview_rect.bottom - preview_rect.top,
pb->filterRect.bottom - pb->filterRect.top);
*/
// Possibility 2: The whole preview rect is always filled with the background color,
// so you can easily see what is the preview area and what is not
preview_w = preview_rect.right - preview_rect.left;
preview_h = preview_rect.bottom - preview_rect.top;
zh = (pb->filterRect.right - pb->filterRect.left)/(double)preview_w;
zv = (pb->filterRect.bottom - pb->filterRect.top)/(double)preview_h;
fitzoom = zh > zv ? zh : zv;
preview_pmap.version = 1;
preview_pmap.bounds.left = preview_pmap.bounds.top = 0;
preview_pmap.bounds.right = preview_w;
preview_pmap.bounds.bottom = preview_h;
preview_pmap.imageMode = pb->imageMode;
preview_pmap.rowBytes = nplanes*preview_w;
preview_pmap.colBytes = nplanes;
preview_pmap.planeBytes = 1; /*interleaved*/
// preview_pmap.baseAddr = preview_data;
/* baseAddr must be set before using pixelmap */
//---------------------------------------------------------------------------
// Fields new in version 1:
//---------------------------------------------------------------------------
preview_pmap.mat = NULL;
if( (pb->imageMode == plugInModeRGBColor && nplanes == 4)
|| (pb->imageMode == plugInModeLabColor && nplanes == 4)
|| (pb->imageMode == plugInModeGrayScale && nplanes == 2)
|| (pb->imageMode == plugInModeDuotone && nplanes == 2) )
{
preview_pmask.next = NULL;
// preview_pmask.maskData = preview_data+3;
preview_pmask.rowBytes = preview_pmap.rowBytes;
preview_pmask.colBytes = nplanes;
preview_pmask.maskDescription = kSimplePSMask;
preview_pmap.masks = &preview_pmask;
}else
preview_pmap.masks = NULL;
preview_handle = PINEWHANDLE((long)preview_h * preview_pmap.rowBytes);
}else
preview_handle = NULL;
return preview_handle != NULL;
//---------------------------------------------------------------------------
// Fields new in version 2:
//---------------------------------------------------------------------------
// preview_pmap.pixelOverlays;
// preview_pmap.colorManagementOptions;
}
void dispose_preview(){
if(preview_handle){
PIDISPOSEHANDLE(preview_handle);
preview_handle = NULL;
}
}
void* memset_bgcolor(void* ptr, size_t num) {
int i;
unsigned char* p;
i = 0;
p = (unsigned char*)ptr;
for (i=0; i<(int)num; ++i) {
#ifdef WIN_ENV
DWORD color;
color = GetSysColor(COLOR_APPWORKSPACE);
if (gpb->imageMode == plugInModeRGBColor) {
if (i%nplanes == 0) p[i] = GetRValue(color);
if (i%nplanes == 1) p[i] = GetGValue(color);
if (i%nplanes == 2) p[i] = GetBValue(color);
if (i%nplanes == 3) p[i] = 255; // alpha channel
} else if (gpb->imageMode == plugInModeGrayScale) {
uint8_t r, g, b;
r = GetRValue(color);
g = GetGValue(color);
b = GetBValue(color);
if (i%nplanes == 0) p[i] = (uint8_t)(((299L*r)+(587L*g)+(114L*b))/1000);
if (i%nplanes == 1) p[i] = 255; // alpha channel
} else if (gpb->imageMode == plugInModeCMYKColor) {
uint8_t r, g, b;
double dr, dg, db, k, c, m, y;
r = GetRValue(color);
g = GetGValue(color);
b = GetBValue(color);
dr = (double)r / 255;
dg = (double)g / 255;
db = (double)b / 255;
k = 1 - max(max(dr, dg), db);
c = (1 - dr - k) / (1 - k);
m = (1 - dg - k) / (1 - k);
y = (1 - db - k) / (1 - k);
if (i%nplanes == 0) p[i] = (uint8_t)(255 - c * 255);
if (i%nplanes == 1) p[i] = (uint8_t)(255 - m * 255);
if (i%nplanes == 2) p[i] = (uint8_t)(255 - y * 255);
if (i%nplanes == 3) p[i] = (uint8_t)(255 - k * 255);
} else {
// FIXME: If we are in such a non supported color mode, then
// these color codes would be all wrong!
// Just to be safe use (what is probably) white
p[i] = 0xFF;
/*
#define plugInModeBitmap 0
#define plugInModeGrayScale 1 supported
#define plugInModeIndexedColor 2
#define plugInModeRGBColor 3 supported
#define plugInModeCMYKColor 4 supported
#define plugInModeHSLColor 5
#define plugInModeHSBColor 6
#define plugInModeMultichannel 7
#define plugInModeDuotone 8
#define plugInModeLabColor 9
#define plugInModeGray16 10
#define plugInModeRGB48 11
#define plugInModeLab48 12
#define plugInModeCMYK64 13
#define plugInModeDeepMultichannel 14
#define plugInModeDuotone16 15
#define plugInModeRGB96 16
#define plugInModeGray32 17
*/
}
#else
// This is the behavior of FilterFoundry <1.7 was this (filled with 0xFF)
// FIXME: Should we do something fancy here, too?
p[i] = 0xFF;
#endif
}
return ptr;
}
void recalc_preview(FilterRecordPtr pb,DIALOGREF dp){
OSErr e;
double scaledw, scaledh;
int j,n,imgw,imgh;
Rect r,outRect;
Ptr outrow;
preview_complete = false;
if(preview_handle){
/* size of previewed area, of source image; but no larger than filtered area (selection) */
scaledw = zoomfactor*preview_w;
if(scaledw > (pb->filterRect.right - pb->filterRect.left))
scaledw = pb->filterRect.right - pb->filterRect.left;
scaledh = zoomfactor*preview_h;
if(scaledh > (pb->filterRect.bottom - pb->filterRect.top))
scaledh = pb->filterRect.bottom - pb->filterRect.top;
/* scale clipped preview area down again - this becomes the pixel size of preview */
imgw
= (int)ceil(scaledw
/zoomfactor
); if(imgw > preview_w)
imgw = preview_w;
imgh
= (int)ceil(scaledh
/zoomfactor
); if(imgh > preview_h)
imgh = preview_h;
/* compute source data rectangle (inRect) */
/* centre preview on filtered part of input image, adding scroll offset */
r.left = (int16)((pb->filterRect.left + pb->filterRect.right - scaledw)/2 + preview_scroll.h);
/* make sure it does not go outside the input area */
if(r.left < pb->filterRect.left) {
preview_scroll.h += pb->filterRect.left - r.left;
r.left = pb->filterRect.left;
}
else if(r.left+scaledw > pb->filterRect.right) {
preview_scroll.h += (int16)(pb->filterRect.right - (r.left+scaledw));
r.left = (int16)(pb->filterRect.right - scaledw);
}
r.right = (int16)(r.left + scaledw);
preview_pmap.maskPhaseCol = (int32)((preview_scroll.h)/zoomfactor); // phase of the checkerboard
/* now compute for vertical */
r.top = (int16)((pb->filterRect.top + pb->filterRect.bottom - scaledh)/2 + preview_scroll.v);
if(r.top < pb->filterRect.top) {
preview_scroll.v += pb->filterRect.top - r.top;
r.top = pb->filterRect.top;
}
else if(r.top+scaledh > pb->filterRect.bottom) {
preview_scroll.v += (int16)(pb->filterRect.bottom - (r.top+scaledh));
r.top = (int16)(pb->filterRect.bottom - scaledh);
}
r.bottom = (int16)(r.top + scaledh);
preview_pmap.maskPhaseRow = (int32)((preview_scroll.v)/zoomfactor); // phase of the checkerboard
/* if formulae need random access to image - src(), rad() - we must request entire area: */
if(needall)
SETRECT(pb->inRect,0,0,pb->imageSize.h,pb->imageSize.v);
else
pb->inRect = r;
pb->outRect = pb->inRect;
SETRECT(pb->maskRect,0,0,0,0);
pb->inLoPlane = pb->outLoPlane = 0;
pb->inHiPlane = pb->outHiPlane = nplanes-1;
if( !needinput || !(e = pb->advanceState()) ){
Ptr outptr = PILOCKHANDLE(preview_handle,false);
int blankrows = (preview_h - imgh)/2,
blankcols = (preview_w - imgw)/2,
pmrb = preview_pmap.rowBytes;
evalinit();
SETRECT(outRect,0,0,imgw,imgh);
e = process_scaled(pb, false, &r, &outRect,
outptr + pmrb*blankrows + nplanes*blankcols, pmrb, zoomfactor);
if(blankrows){
// blank rows on top of preview:
memset_bgcolor(outptr, pmrb*blankrows);
// blank rows below preview:
n = preview_h - blankrows - imgh;
memset_bgcolor(outptr + pmrb*(blankrows+imgh), pmrb*n);
}
if(blankcols){
n = preview_w - blankcols - imgw;
outrow = outptr + pmrb*blankrows;
for(j = blankrows; j < preview_h - blankrows; ++j){
// blank columns on left side of preview (if picture is smaller than the preview area):
memset_bgcolor(outrow, nplanes*blankcols);
// blank columns on right side of preview (if picture is smaller than the preview area):
memset_bgcolor(outrow + nplanes*(blankcols+imgw), nplanes*n);
outrow += pmrb;
}
}
if(!e){
preview_complete = true;
#ifdef WIN_ENV
{
extern HWND preview_hwnd;
HDC hdc = GetDC(preview_hwnd);
drawpreview(dp,hdc,outptr);
ReleaseDC(preview_hwnd,hdc);
}
#else
{
GrafPtr saveport;
GetPort(&saveport);
SetPortDialogPort(dp);
drawpreview(dp,NULL,outptr);
SetPort(saveport);
}
#endif
}
PIUNLOCKHANDLE(preview_handle);
}
if(e && !previewerr){
alertuser("Could not build preview at chosen zoom level.",
e == memFullErr && !needall ? "The image is too large for available memory. Try zooming in.\nIf that does not help, Cancel and retry the filter." : "");
previewerr = true;
}
}
}
OSErr drawpreview(DIALOGREF dp,void *hdc,Ptr imageptr){
intptr_t watchsusp;
OSErr e = noErr;
VRect srcRect;
UIRECT imagebounds;
if(preview_handle && preview_complete){
srcRect = preview_pmap.bounds;
imagebounds.left = (preview_rect.left + preview_rect.right - preview_w)/2;
imagebounds.top = (preview_rect.top + preview_rect.bottom - preview_h)/2;
imagebounds.right = imagebounds.left + preview_w;
imagebounds.bottom = imagebounds.top + preview_h;
preview_pmap.baseAddr = imageptr;
preview_pmask.maskData = imageptr+3; // FIXME: is this offset correct for all modes?!
if(gpb->propertyProcs->getPropertyProc){
gpb->propertyProcs->getPropertyProc(kPhotoshopSignature,propWatchSuspension,0,&watchsusp,NULL);
gpb->propertyProcs->setPropertyProc(kPhotoshopSignature,propWatchSuspension,0,watchsusp+1,NULL);
}
e = gpb->displayPixels(&preview_pmap,&srcRect,imagebounds.top,imagebounds.left,hdc);
if(gpb->propertyProcs->getPropertyProc)
gpb->propertyProcs->setPropertyProc(kPhotoshopSignature,propWatchSuspension,0,watchsusp,NULL);
}
return e;
}