/*
* ctkRegion.c (CTk) --
*
* Geometry manipulation routines - regions (free form 2-D shapes),
* rectangles, and spans (horizontal segments).
*
* Beware, some of theses routines have special constraints that
* are not obvious from their title. Be sure to examine headers
* for constraints.
*
* Copyright (c) 1994-1995 Cleveland Clinic Foundation
*
* See the file "license.terms" for information on usage and redistribution
* of this file, and for a DISCLAIMER OF ALL WARRANTIES.
*
* @(#) $Id: ctk.shar,v 1.50 1996/01/15 14:47:16 andrewm Exp andrewm $
*/
#include "tkPort.h"
#include "tkInt.h"
/*
* Notes on Geometry Types.
*
* Spans -
* Horizontal line segment. Between left point (inclusive)
* and right point (exclusive). Any span with right <= left
* is considered empty.
*
* Rectangles -
* Analogous to spans top and left points are include,
* and right and bottom points are excluded from area
* rectangle. Any rectangle with right <= left or
* bottom <= top is considered empty.
*
* Region -
* Free form area. Contents of structure are opaque.
* !!! Vertical bounds of region cannot increase !!!
* The rectangle used with CtkCreateRegion() must have the
* maximum top and bottom for the region (the rectangle
* may still be empty if right <= left).
*/
/*
* Limits for x and y coordinates
* (choose these to work with systems where int is 16-bit).
*/
#define COORD_MAX 32767
#define COORD_MIN -32768
/*
* Component of a region
*/
typedef struct {
int left;
int right;
int next; /* Index of next span */
} RegionSpan;
#define NO_SPAN (-1) /* Invalid index (indicates end of span list) */
struct CtkRegion {
int top;
int bottom;
int free;
int num_spans;
RegionSpan *spans;
};
#define CopySpan(dst, src) (memcpy((dst), (src), sizeof(RegionSpan)))
#define FreeSpan(rgnPtr, index) \
((rgnPtr)->spans[(index)].next \
= (rgnPtr)->free, (rgnPtr)->free = (index))
/*
* Private Function Declarations
*/
static void PseudoUnionSpans _ANSI_ARGS_((int *leftPtr, int *rightPtr,
int left2, int right2));
static int DeleteSpan _ANSI_ARGS_((CtkRegion * rgnPtr, int index,
int priorIndex));
static void AppendSpan _ANSI_ARGS_((CtkRegion * rgnPtr, int index,
int left, int right));
static void PrependSpan _ANSI_ARGS_((CtkRegion * rgnPtr, int index,
int left, int right));
static int AllocSpan _ANSI_ARGS_((CtkRegion * rgnPtr));
static void MergeSpan _ANSI_ARGS_((CtkRegion * rgnPtr, int left,
int right, int y));
�
/*
*----------------------------------------------------------------------
*
* CtkIntersectSpans -- compute intersection of 2 spans
*
* Compute the intersection of the span (*leftPtr,*rightPtr)
* and the span (left2,right2).
*
* Results:
* Stores the resulting span in `leftPtr' and `rightPtr'.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
void
CtkIntersectSpans(leftPtr, rightPtr, left2, right2)
int *leftPtr;
int *rightPtr;
int left2;
int right2;
{
if (*leftPtr < left2) *leftPtr = left2;
if (*rightPtr > right2) *rightPtr = right2;
}
�
/*
*----------------------------------------------------------------------
*
* PseudoUnionSpans -- compute union of 2 spans
*
* Compute the union of the span (*leftPtr,*rightPtr)
* and the span (left2,right2). Assumes that the spans overlap.
* If they don't, the result will contain the area between the
* spans also. (A real union would have to be capable of
* returning two disjoint spans.)
*
* Results:
* Stores the resulting span in `leftPtr' and `rightPtr'.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static void
PseudoUnionSpans(leftPtr, rightPtr, left2, right2)
int *leftPtr;
int *rightPtr;
int left2;
int right2;
{
if (*leftPtr > left2) *leftPtr = left2;
if (*rightPtr < right2) *rightPtr = right2;
}
�
/*
*----------------------------------------------------------------------
*
* CtkSpanMinusSpan - compute difference of 2 spans
*
* Substract span (subL, subR) from span (srcL, srcR).
* (Find segment(s) in first span that do not overlap with
* second span.)
*
* Results:
* Returns the number of resultin spans (0-2).
* Stores the resulting span(s) in remsL[] and remsR[].
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
CtkSpanMinusSpan(srcL, srcR, subL, subR, remsL, remsR)
int srcL;
int srcR;
int subL;
int subR;
int *remsL;
int *remsR;
{
int numRems = 0;
if (srcR <= subL || srcL >= subR) return (numRems);
if (srcL < subL) {
remsL[numRems] = srcL;
remsR[numRems] = subL;
numRems += 1;
}
if (srcR > subR) {
remsL[numRems] = subR;
remsR[numRems] = srcR;
numRems += 1;
}
return (numRems);
}
�
/*
*----------------------------------------------------------------------
*
* CtkIntersectRects -- compute intersection of two rectangles
*
* Computer overlap between rectangles pointed to by
* r1Ptr and r2Ptr.
*
* Results:
* Stores clipped down rectangle in `r1Ptr'.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
void
CtkIntersectRects(r1Ptr, r2Ptr)
Ctk_Rect * r1Ptr;
CONST Ctk_Rect * r2Ptr;
{
if (r1Ptr->left < r2Ptr->left) r1Ptr->left = r2Ptr->left;
if (r1Ptr->top < r2Ptr->top) r1Ptr->top = r2Ptr->top;
if (r1Ptr->right > r2Ptr->right) r1Ptr->right = r2Ptr->right;
if (r1Ptr->bottom > r2Ptr->bottom) r1Ptr->bottom = r2Ptr->bottom;
}
�
/*
*----------------------------------------------------------------------
*
* CtkCreateRegion -- create a new region
*
* Create a new region and initialize it to the area of
* `rect'.
*
* Results:
* Returns pointer to new region.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
CtkRegion *
CtkCreateRegion(rect)
Ctk_Rect * rect;
{
CtkRegion * rgnPtr;
int i;
rgnPtr = (CtkRegion *) ckalloc(sizeof(CtkRegion));
rgnPtr->top = rect->top;
rgnPtr->bottom = rect->bottom;
rgnPtr->free = NO_SPAN;
rgnPtr->num_spans = rgnPtr->bottom - rgnPtr->top;
if (rgnPtr->num_spans <= 0) {
rgnPtr->num_spans = 0;
rgnPtr->spans = (RegionSpan *) NULL;
} else {
rgnPtr->spans = (RegionSpan *)
ckalloc(rgnPtr->num_spans * sizeof(RegionSpan));
for (i=0; i < rgnPtr->num_spans; i++) {
rgnPtr->spans[i].left = rect->left;
rgnPtr->spans[i].right = rect->right;
rgnPtr->spans[i].next = NO_SPAN;
}
}
return rgnPtr;
}
�
/*
*----------------------------------------------------------------------
*
* CtkDestroyRegion - release resources held by a region
*
* Free resources for a region - region may not be referenced
* again.
*
* Results:
* None.
*
* Side effects:
* Memory is freed.
*
*----------------------------------------------------------------------
*/
void
CtkDestroyRegion(rgnPtr)
CtkRegion *rgnPtr;
{
if (rgnPtr->spans) {
ckfree((char *) rgnPtr->spans);
}
ckfree((char *) rgnPtr);
}
�
/*
*----------------------------------------------------------------------
*
* CtkRegionMinusRect - remove rectangular area from region
*
* Substract area of rectangle `rectPtr' from region `rgnPtr'.
*
* Results:
* If `wantInter', returns the intersection of the region and
* the rectangle (as a new region - use CtkDestroyRegion() to
* get rid of it).
* Otherwise, returns NULL.
*
* Side effects:
* Contents of `rgnPtr' is changed.
*
*----------------------------------------------------------------------
*/
CtkRegion *
CtkRegionMinusRect(rgnPtr, rectPtr, wantInter)
CtkRegion *rgnPtr;
Ctk_Rect *rectPtr;
int wantInter;
{
int itop = rectPtr->top;
int ibottom = rectPtr->bottom;
RegionSpan *spans = rgnPtr->spans;
int y;
int idx;
int lastIdx;
int rems;
int newLefts[2];
int newRights[2];
Ctk_Rect emptyRect;
CtkRegion * intersection = NULL;
CtkIntersectSpans(&itop, &ibottom, rgnPtr->top, rgnPtr->bottom);
if (wantInter) {
emptyRect.left = 0;
emptyRect.top = itop;
emptyRect.right = 0;
emptyRect.bottom = ibottom;
intersection = (CtkRegion *) CtkCreateRegion(&emptyRect);
}
for (y = itop; y < ibottom; y++) {
lastIdx = NO_SPAN;
idx = y - rgnPtr->top;
while (idx != NO_SPAN) {
if (spans[idx].left >= rectPtr->right) {
/*
* Remaining spans on this line are right of `rectPtr'
*/
break;
}
if (spans[idx].right <= rectPtr->left) {
/*
* No overlap
*/
lastIdx = idx;
idx = spans[idx].next;
} else {
/*
* Rect and span overlap
*/
rems = CtkSpanMinusSpan(
spans[idx].left, spans[idx].right,
rectPtr->left, rectPtr->right,
newLefts, newRights);
if (wantInter) {
CtkIntersectSpans(
&spans[idx].left, &spans[idx].right,
rectPtr->left, rectPtr->right );
MergeSpan(intersection,
spans[idx].left, spans[idx].right, y);
}
switch (rems) {
case 0:
idx = DeleteSpan(rgnPtr, idx, lastIdx);
break;
case 1:
spans[idx].left = newLefts[0];
spans[idx].right = newRights[0];
lastIdx = idx;
idx = spans[idx].next;
break;
case 2:
spans[idx].left = newLefts[0];
spans[idx].right = newRights[0];
AppendSpan(rgnPtr, idx, newLefts[1], newRights[1]);
spans = rgnPtr->spans;
lastIdx = spans[idx].next;
idx = spans[lastIdx].next;
break;
}
}
} /* for (idx) */
} /* for (y) */
return intersection;
}
�
/*
*----------------------------------------------------------------------
*
* CtkUnionRegions - merge one region into another
*
* Computes the union of the regions `rgn1Ptr' and `rgn2Ptr',
* and stores it in `rgn1Ptr'.
* !!! The union cannot increase the top and bottom of `rgn1' !!!
*
* Results:
* None.
*
* Side effects:
* `rgn1Ptr' was is (possibly) expanded.
*
*----------------------------------------------------------------------
*/
void
CtkUnionRegions(rgn1Ptr, rgn2Ptr)
CtkRegion *rgn1Ptr;
CtkRegion *rgn2Ptr;
{
RegionSpan *spans2 = rgn2Ptr->spans;
int top2 = rgn2Ptr->top;
int bottom2 = rgn2Ptr->bottom;
int y;
int idx;
for (y = top2; y < bottom2; y++) {
idx = y - top2;
if (spans2[idx].left >= spans2[idx].right) {
/* Empty scan line */
continue;
}
/*
* Could eventually expand (repack) region 1 here,
* if line is not within the vertical bounds of the
* first region.
*/
while (idx != NO_SPAN) {
MergeSpan(rgn1Ptr, spans2[idx].left, spans2[idx].right, y);
idx = spans2[idx].next;
}
}
}
�
/*
*----------------------------------------------------------------------
*
* CtkForEachSpan -- perform function on every span in a region
*
* Executes function `spanProcPtr' for each span in region.
* Passes `clientData' and the span as arguments to `spanProcPtr'.
*
* Results:
* None.
*
* Side effects:
* `spanProcPtr' is executed.
*
*----------------------------------------------------------------------
*/
void
CtkForEachSpan(spanProcPtr, clientData, rgnPtr)
CtkSpanProc *spanProcPtr;
ClientData clientData;
CtkRegion *rgnPtr;
{
RegionSpan *spans = rgnPtr->spans;
int top = rgnPtr->top;
int bottom = rgnPtr->bottom;
int y;
int idx;
for (y = top; y < bottom; y++) {
idx = y - top;
if (spans[idx].left >= spans[idx].right) {
/* Empty scan line */
continue;
}
while (idx != NO_SPAN) {
(*spanProcPtr)(spans[idx].left, spans[idx].right, y, clientData);
idx = spans[idx].next;
}
}
}
�
/*
*----------------------------------------------------------------------
*
* CtkForEachIntersectingSpan -- perform function on region/span intersection
*
* Computes the intersection of region `rgnPtr' and the
* span `left',`right' at vertical position `y'. Executes
* function `spanProcPtr' for each span in the intersection.
* Passes `clientData' and the span as arguments to `spanProcPtr'.
*
* Results:
* None.
*
* Side effects:
* `spanProcPtr' is executed.
*
*----------------------------------------------------------------------
*/
void
CtkForEachIntersectingSpan(spanProcPtr, clientData, left, right, y, rgnPtr)
CtkSpanProc *spanProcPtr;
ClientData clientData;
int left;
int right;
int y;
CtkRegion *rgnPtr;
{
RegionSpan *spans = rgnPtr->spans;
int idx;
int ileft;
int iright;
if (y < rgnPtr->top || y >= rgnPtr->bottom) return;
for (idx = y - rgnPtr->top; idx != NO_SPAN; idx = spans[idx].next) {
if (spans[idx].left >= right) break;
if (spans[idx].right > left) {
/*
* Spans overlap.
*/
ileft = spans[idx].left;
iright = spans[idx].right;
CtkIntersectSpans(&ileft, &iright, left, right);
(*spanProcPtr)(ileft, iright, y, clientData);
}
} /* for (idx) */
}
�
/*
*----------------------------------------------------------------------
*
* CtkPointInRegion -- check if point is contained in region
*
* Check if point (x,y) is in the region `rgnPtr'.
*
* Results:
* Returns 1 if point is in region, otherwise returns 0.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
CtkPointInRegion(x, y, rgnPtr)
int x, y;
CtkRegion *rgnPtr;
{
RegionSpan *spans = rgnPtr->spans;
int idx;
if (y >= rgnPtr->top && y < rgnPtr->bottom) {
for (idx = y - rgnPtr->top; idx != NO_SPAN; idx = spans[idx].next) {
if (spans[idx].left > x) break;
if (spans[idx].right > x) {
return 1;
}
}
}
return 0;
}
�
/*
*----------------------------------------------------------------------
*
* CtkRegionGetRect -- compute enclosing rectangle of a region
*
* Compute the smallest rectangle that will enclose the
* area of `rgnPtr'.
*
* Results:
* Stores the resulting rectangle in `rectPtr'.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
void
CtkRegionGetRect(rgnPtr, rectPtr)
CtkRegion *rgnPtr;
Ctk_Rect *rectPtr;
{
RegionSpan *spans = rgnPtr->spans;
int top = rgnPtr->top;
int numLines = rgnPtr->bottom - top;
int topLine; /* Index of top non-empty scan line */
int bottomLine; /* Index of bottom non-empty scan line */
int left = COORD_MAX;
int right = COORD_MIN;
int line;
int i;
for (topLine = 0; topLine < numLines; topLine++) {
if (spans[topLine].left < spans[topLine].right) {
/* Non-empty scan line */
break;
}
}
for (bottomLine = numLines-1 ; bottomLine >= topLine; bottomLine--) {
if (spans[bottomLine].left < spans[bottomLine].right) {
/* Non-empty scan line */
break;
}
}
bottomLine++;
for (line = topLine; line < bottomLine; line++)
{
if (spans[line].left < spans[line].right) {
/*
* Non-empty scan line, if it goes outside the current
* left and right bounds, then expand the bounds.
*/
if (spans[line].left < left) {
left = spans[line].left;
}
for (i = line; spans[i].next != NO_SPAN; i++);
if (spans[i].right > right) {
right = spans[i].right;
}
}
}
if (left < right && topLine < bottomLine) {
CtkSetRect(rectPtr, left, top+topLine, right, top+bottomLine);
} else {
CtkSetRect(rectPtr, 0, 0, 0, 0);
}
}
�
/*
*----------------------------------------------------------------------
*
* DeleteSpan -- remove a span from a region
*
* Removes the span at `index' from `rgnPtr'. `priorIndex'
* must point to the preceding span, or be NO_SPAN if this
* is the first span of a line.
*
* Results:
* Index of the next span (one after the deleted one).
*
* Side effects:
* The span at the specified index is removed, unless it is the
* first span of scan line in which case is is set to empty.
*
*----------------------------------------------------------------------
*/
static int
DeleteSpan(rgnPtr, index, priorIndex)
CtkRegion *rgnPtr;
int index;
int priorIndex;
{
int nextIndex = rgnPtr->spans[index].next;
if (priorIndex == NO_SPAN) {
if (nextIndex == NO_SPAN) {
rgnPtr->spans[index].left = rgnPtr->spans[index].right;
} else {
CopySpan(&rgnPtr->spans[index], &rgnPtr->spans[nextIndex]);
FreeSpan(rgnPtr, nextIndex);
nextIndex = index;
}
} else {
rgnPtr->spans[priorIndex].next = nextIndex;
FreeSpan(rgnPtr, index);
}
return nextIndex;
}
�
/*
*----------------------------------------------------------------------
*
* AppendSpan -- add a span to a region
*
* Adds span `left',`right' to region `rgnPtr'
* after the span at `index'.
*
* Results:
* None.
*
* Side effects:
* Changes contents of `rgnPtr'.
* !!! May change the value of rgnPtr->spans !!!
*
*----------------------------------------------------------------------
*/
static void
AppendSpan(rgnPtr, index, left, right)
CtkRegion * rgnPtr;
int index;
int left;
int right;
{
int newIndex = AllocSpan(rgnPtr);
RegionSpan *spans = rgnPtr->spans;
spans[newIndex].left = left;
spans[newIndex].right = right;
spans[newIndex].next = spans[index].next;
spans[index].next = newIndex;
}
�
/*
*----------------------------------------------------------------------
*
* PrependSpan -- add a span to a region
*
* Adds span `left',`right' to region `rgnPtr'
* before the span at `index'.
*
* Results:
* None.
*
* Side effects:
* Changes contents of `rgnPtr'.
* !!! May change the value of rgnPtr->spans !!!
*
*----------------------------------------------------------------------
*/
static void
PrependSpan(rgnPtr, index, left, right)
CtkRegion * rgnPtr;
int index;
int left;
int right;
{
int newIndex = AllocSpan(rgnPtr);
RegionSpan *spans = rgnPtr->spans;
CopySpan(&spans[newIndex], &spans[index]);
spans[index].left = left;
spans[index].right = right;
spans[index].next = newIndex;
}
�
/*
*----------------------------------------------------------------------
*
* AllocSpan -- get a new span for a region
*
* Allocates another span for region `rgnPtr'.
*
* Results:
* Returns index of new span.
*
* Side effects:
* !!! May change the value of rgnPtr->spans !!!
*
*----------------------------------------------------------------------
*/
static int
AllocSpan(rgnPtr)
CtkRegion * rgnPtr;
{
int i;
int old_num;
int new_num;
if (rgnPtr->free == NO_SPAN) {
/*
* No spans in free list, allocate some more.
*/
old_num = rgnPtr->num_spans;
new_num = old_num + 20;
rgnPtr->spans = (RegionSpan *)
ckrealloc((char *) rgnPtr->spans, (new_num)*sizeof(RegionSpan));
rgnPtr->num_spans = new_num;
/*
* Add the new spans (except one) to the regions free list.
*/
for (i=old_num+1; i < new_num; i++) {
rgnPtr->spans[i-1].next = i;
}
rgnPtr->spans[new_num-1].next = NO_SPAN;
rgnPtr->free = old_num+1;
/*
* Return the remaining new span.
*/
return (old_num);
} else {
/*
* Spans in free list, return one.
*/
i = rgnPtr->free;
rgnPtr->free = rgnPtr->spans[rgnPtr->free].next;
return (i);
}
}
�
/*
*----------------------------------------------------------------------
*
* MergeSpan -- union a span into a region
*
* Computes the union of region `rgnPtr' and span `left',`right'
* at line y, and stores it in `rgnPtr'.
* !!! `y' must be within rgnPtr->top and rgnPtr->bottom !!!
*
* Results:
* None.
*
* Side effects:
* (Possibly) expands the region `rgnPtr'.
*
*----------------------------------------------------------------------
*/
static void
MergeSpan(rgnPtr, left, right, y)
CtkRegion * rgnPtr;
int left;
int right;
int y;
{
RegionSpan *spans = rgnPtr->spans;
int idx = y - rgnPtr->top;
int lastIdx = NO_SPAN;
int mergeIdx = NO_SPAN;
if (y < rgnPtr->top || y > rgnPtr->bottom) {
panic("Merge span (y=%d) outside of regions vertical bounds (%d-%d)",
y, rgnPtr->top, rgnPtr->bottom);
}
if (spans[idx].left >= spans[idx].right) {
/*
* Empty scan line, replace it with the new span.
*/
spans[idx].left = left;
spans[idx].right = right;
return;
}
while (idx != NO_SPAN) {
if (spans[idx].right >= left) {
/*
* This spans is not left of the merge span.
*/
if (spans[idx].left > right) break; /* right of merge */
if (mergeIdx == NO_SPAN) {
PseudoUnionSpans(
&spans[idx].left, &spans[idx].right, left, right);
mergeIdx = idx;
} else {
if (spans[mergeIdx].right < spans[idx].right) {
spans[mergeIdx].right = spans[idx].right;
}
idx = DeleteSpan(rgnPtr, idx, lastIdx);
continue;
}
}
lastIdx = idx;
idx = spans[idx].next;
}
if (mergeIdx == NO_SPAN) {
/*
* No merge performed, append merge span to scan line.
*/
if (lastIdx == NO_SPAN) {
PrependSpan(rgnPtr, idx, left, right);
} else {
AppendSpan(rgnPtr, lastIdx, left, right);
}
}
}