mirror of
https://github.com/libretro/scummvm.git
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310 lines
9.0 KiB
C++
310 lines
9.0 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* This file contains the clipping rectangle code.
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*/
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#include "tinsel/cliprect.h" // object clip rect defs
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#include "tinsel/graphics.h" // normal object drawing
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#include "tinsel/object.h"
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#include "tinsel/palette.h"
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#include "tinsel/tinsel.h" // for _vm
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namespace Tinsel {
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/**
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* Resets the clipping rectangle allocator.
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*/
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void ResetClipRect() {
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_vm->_clipRects.clear();
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}
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/**
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* Allocate a clipping rectangle from the free list.
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* @param pClip clip rectangle dimensions to allocate
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*/
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void AddClipRect(const Common::Rect &pClip) {
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_vm->_clipRects.push_back(pClip);
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}
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const RectList &GetClipRects() {
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return _vm->_clipRects;
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}
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/**
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* Creates the intersection of two rectangles.
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* Returns True if there is a intersection.
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* @param pDest Pointer to destination rectangle that is to receive the intersection
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* @param pSrc1 Pointer to a source rectangle
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* @param pSrc2 Pointer to a source rectangle
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*/
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bool IntersectRectangle(Common::Rect &pDest, const Common::Rect &pSrc1, const Common::Rect &pSrc2) {
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pDest.left = MAX(pSrc1.left, pSrc2.left);
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pDest.top = MAX(pSrc1.top, pSrc2.top);
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pDest.right = MIN(pSrc1.right, pSrc2.right);
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pDest.bottom = MIN(pSrc1.bottom, pSrc2.bottom);
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return !pDest.isEmpty();
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}
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/**
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* Creates the union of two rectangles.
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* Returns True if there is a union.
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* @param pDest destination rectangle that is to receive the new union
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* @param pSrc1 a source rectangle
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* @param pSrc2 a source rectangle
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*/
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bool UnionRectangle(Common::Rect &pDest, const Common::Rect &pSrc1, const Common::Rect &pSrc2) {
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pDest.left = MIN(pSrc1.left, pSrc2.left);
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pDest.top = MIN(pSrc1.top, pSrc2.top);
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pDest.right = MAX(pSrc1.right, pSrc2.right);
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pDest.bottom = MAX(pSrc1.bottom, pSrc2.bottom);
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return !pDest.isEmpty();
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}
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/**
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* Check if the two rectangles are next to each other.
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* @param pSrc1 a source rectangle
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* @param pSrc2 a source rectangle
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*/
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static bool LooseIntersectRectangle(const Common::Rect &pSrc1, const Common::Rect &pSrc2) {
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Common::Rect pDest;
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pDest.left = MAX(pSrc1.left, pSrc2.left);
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pDest.top = MAX(pSrc1.top, pSrc2.top);
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pDest.right = MIN(pSrc1.right, pSrc2.right);
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pDest.bottom = MIN(pSrc1.bottom, pSrc2.bottom);
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return pDest.isValidRect();
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}
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/**
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* Adds velocities and creates clipping rectangles for all the
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* objects that have moved on the specified object list.
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* @param pObjList Playfield display list to draw
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* @param pWin Playfield window top left position
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* @param pClip Playfield clipping rectangle
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* @param bNoVelocity When reset, objects pos is updated with velocity
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* @param bScrolled) When set, playfield has scrolled
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*/
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void FindMovingObjects(OBJECT **pObjList, Common::Point *pWin, Common::Rect *pClip, bool bNoVelocity, bool bScrolled) {
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OBJECT *pObj; // object list traversal pointer
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for (pObj = *pObjList; pObj != NULL; pObj = pObj->pNext) {
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if (!bNoVelocity) {
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// we want to add velocities to objects position
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if (bScrolled) {
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// this playfield has scrolled
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// indicate change
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pObj->flags |= DMA_CHANGED;
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}
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}
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if ((pObj->flags & DMA_CHANGED) || // object changed
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HasPalMoved(pObj->pPal)) { // or palette moved
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// object has changed in some way
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Common::Rect rcClip; // objects clipped bounding rectangle
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Common::Rect rcObj; // objects bounding rectangle
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// calc intersection of objects previous bounding rectangle
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// NOTE: previous position is in screen co-ords
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if (IntersectRectangle(rcClip, pObj->rcPrev, *pClip)) {
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// previous position is within clipping rect
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AddClipRect(rcClip);
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}
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// calc objects current bounding rectangle
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if (pObj->flags & DMA_ABS) {
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// object position is absolute
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rcObj.left = fracToInt(pObj->xPos);
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rcObj.top = fracToInt(pObj->yPos);
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} else {
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// object position is relative to window
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rcObj.left = fracToInt(pObj->xPos) - pWin->x;
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rcObj.top = fracToInt(pObj->yPos) - pWin->y;
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}
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rcObj.right = rcObj.left + pObj->width;
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rcObj.bottom = rcObj.top + pObj->height;
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// calc intersection of object with clipping rect
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if (IntersectRectangle(rcClip, rcObj, *pClip)) {
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// current position is within clipping rect
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AddClipRect(rcClip);
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// update previous position
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pObj->rcPrev = rcClip;
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} else {
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// clear previous position
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pObj->rcPrev = Common::Rect();
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}
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// clear changed flag
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pObj->flags &= ~DMA_CHANGED;
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}
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}
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}
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/**
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* Merges any clipping rectangles that overlap to try and reduce
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* the total number of clip rectangles.
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*/
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void MergeClipRect() {
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RectList &s_rectList = _vm->_clipRects;
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if (s_rectList.size() <= 1)
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return;
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RectList::iterator rOuter, rInner;
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for (rOuter = s_rectList.begin(); rOuter != s_rectList.end(); ++rOuter) {
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rInner = rOuter;
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while (++rInner != s_rectList.end()) {
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if (LooseIntersectRectangle(*rOuter, *rInner)) {
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// these two rectangles overlap or
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// are next to each other - merge them
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UnionRectangle(*rOuter, *rOuter, *rInner);
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// remove the inner rect from the list
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s_rectList.erase(rInner);
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// move back to beginning of list
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rInner = rOuter;
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}
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}
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}
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}
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/**
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* Redraws all objects within this clipping rectangle.
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* @param pObjList Object list to draw
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* @param pWin Window top left position
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* @param pClip Pointer to clip rectangle
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*/
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void UpdateClipRect(OBJECT **pObjList, Common::Point *pWin, Common::Rect *pClip) {
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int x, y, right, bottom; // object corners
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int hclip, vclip; // total size of object clipping
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DRAWOBJECT currentObj; // filled in to draw the current object in list
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OBJECT *pObj; // object list iterator
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// Initialize the fields of the drawing object to empty
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memset(¤tObj, 0, sizeof(DRAWOBJECT));
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for (pObj = *pObjList; pObj != NULL; pObj = pObj->pNext) {
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if (pObj->flags & DMA_ABS) {
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// object position is absolute
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x = fracToInt(pObj->xPos);
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y = fracToInt(pObj->yPos);
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} else {
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// object position is relative to window
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x = fracToInt(pObj->xPos) - pWin->x;
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y = fracToInt(pObj->yPos) - pWin->y;
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}
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// calc object right
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right = x + pObj->width;
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if (right < 0)
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// totally clipped if negative
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continue;
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// calc object bottom
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bottom = y + pObj->height;
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if (bottom < 0)
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// totally clipped if negative
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continue;
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// bottom clip = low right y - clip low right y
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currentObj.botClip = bottom - pClip->bottom;
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if (currentObj.botClip < 0) {
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// negative - object is not clipped
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currentObj.botClip = 0;
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}
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// right clip = low right x - clip low right x
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currentObj.rightClip = right - pClip->right;
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if (currentObj.rightClip < 0) {
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// negative - object is not clipped
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currentObj.rightClip = 0;
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}
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// top clip = clip top left y - top left y
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currentObj.topClip = pClip->top - y;
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if (currentObj.topClip < 0) {
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// negative - object is not clipped
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currentObj.topClip = 0;
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} else { // clipped - adjust start position to top of clip rect
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y = pClip->top;
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}
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// left clip = clip top left x - top left x
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currentObj.leftClip = pClip->left - x;
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if (currentObj.leftClip < 0) {
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// negative - object is not clipped
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currentObj.leftClip = 0;
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} else {
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// NOTE: This else statement is disabled in tinsel v1
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// clipped - adjust start position to left of clip rect
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x = pClip->left;
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}
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// calc object total horizontal clipping
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hclip = currentObj.leftClip + currentObj.rightClip;
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// calc object total vertical clipping
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vclip = currentObj.topClip + currentObj.botClip;
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if (hclip + vclip != 0) {
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// object is clipped in some way
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if (pObj->width <= hclip)
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// object totally clipped horizontally - ignore
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continue;
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if (pObj->height <= vclip)
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// object totally clipped vertically - ignore
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continue;
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// set clip bit in objects flags
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currentObj.flags = pObj->flags | DMA_CLIP;
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} else { // object is not clipped - copy flags
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currentObj.flags = pObj->flags;
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}
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// copy objects properties to local object
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currentObj.width = pObj->width;
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currentObj.height = pObj->height;
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currentObj.xPos = (short)x;
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currentObj.yPos = (short)y;
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currentObj.pPal = pObj->pPal;
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currentObj.constant = pObj->constant;
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currentObj.hBits = pObj->hBits;
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// draw the object
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DrawObject(¤tObj);
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}
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}
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} // End of namespace Tinsel
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