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authorzecke <zecke>2004-03-14 18:16:15 (UTC)
committer zecke <zecke>2004-03-14 18:16:15 (UTC)
commitcbd0144d473cd22d565fbe6c07db85548f2d797d (patch) (side-by-side diff)
tree3c77551b6716f00d62f028bde396d836b62f4754
parent105a35c8e6f2ea63a074f9eb94336b6cbe065b04 (diff)
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Fix compile and right deps
Diffstat (more/less context) (ignore whitespace changes)
-rw-r--r--core/multimedia/opieplayer/libflash/config.in2
-rw-r--r--core/multimedia/opieplayer/libflash/shape.cc2
-rw-r--r--core/multimedia/opieplayer/libmad/config.in2
-rw-r--r--core/multimedia/opieplayer/libmpeg3/config.in2
-rw-r--r--core/multimedia/opieplayer/modplug/config.in2
-rw-r--r--core/multimedia/opieplayer/wavplugin/config.in2
6 files changed, 7 insertions, 5 deletions
diff --git a/core/multimedia/opieplayer/libflash/config.in b/core/multimedia/opieplayer/libflash/config.in
index 91a57da..258e8ee 100644
--- a/core/multimedia/opieplayer/libflash/config.in
+++ b/core/multimedia/opieplayer/libflash/config.in
@@ -1,4 +1,4 @@
# config #LIBFLASH
# boolean "libflash"
# default "y"
-# depends ( LIBQPE || LIBQPE-X11 ) && LIBOPIE
+# depends ( LIBQPE || LIBQPE-X11 )
diff --git a/core/multimedia/opieplayer/libflash/shape.cc b/core/multimedia/opieplayer/libflash/shape.cc
index 0d8df93..4d4ecb8 100644
--- a/core/multimedia/opieplayer/libflash/shape.cc
+++ b/core/multimedia/opieplayer/libflash/shape.cc
@@ -1,1205 +1,1207 @@
/////////////////////////////////////////////////////////////
// Flash Plugin and Player
// Copyright (C) 1998,1999 Olivier Debon
//
// 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.
//
///////////////////////////////////////////////////////////////
// Author : Olivier Debon <odebon@club-internet.fr>
//
#include "swf.h"
+#include "math.h"
+
#ifdef RCSID
static char *rcsid = "$Id$";
#endif
#define PRINT 0
#define ABS(v) ((v) < 0 ? -(v) : (v))
static void prepareStyles(GraphicDevice *gd, Matrix *matrix, Cxform *cxform, FillStyleDef *f, long n);
static void clearStyles(GraphicDevice *gd, FillStyleDef *f, long n);
static void drawShape(GraphicDevice *gd, Matrix *matrix1, Cxform *cxform, Shape *shape,
ShapeAction shapeAction, void *id,ScanLineFunc scan_line_func);
// Constructor
Shape::Shape(long id, int level) : Character(ShapeType, id)
{
defLevel = level;
defaultFillStyle.type = f_Solid;
defaultFillStyle.color.red = 0;
defaultFillStyle.color.green = 0;
defaultFillStyle.color.blue = 0;
defaultFillStyle.color.alpha = ALPHA_OPAQUE;
defaultLineStyle.width = 0;
// This is to force a first update
lastMat.a = 0;
lastMat.d = 0;
shape_size += sizeof(Shape);
shape_nb ++;
file_ptr = NULL;
getStyles = 0;
getAlpha = 0;
}
Shape::~Shape()
{
if (file_ptr) {
free(file_ptr);
}
}
void
Shape::setBoundingBox(Rect rect)
{
boundary = rect;
}
void
Shape::getBoundingBox(Rect *bb, DisplayListEntry *e)
{
*bb = boundary;
}
int
Shape::execute(GraphicDevice *gd, Matrix *matrix, Cxform *cxform)
{
//printf("TagId = %d\n", getTagId());
//if (getTagId() != 220) return 0;
if (cxform) {
defaultFillStyle.color = cxform->getColor(gd->getForegroundColor());
} else {
defaultFillStyle.color = gd->getForegroundColor();
}
defaultFillStyle.color.pixel = gd->allocColor(defaultFillStyle.color);
drawShape(gd, matrix, cxform, this, ShapeDraw, NULL, 0);
return 0;
}
void
Shape::getRegion(GraphicDevice *gd, Matrix *matrix, void *id, ScanLineFunc scan_line_func)
{
gd->setClipping(0);
drawShape(gd,matrix,0,this,ShapeGetRegion,id,scan_line_func);
gd->setClipping(1);
}
/************************************************************************/
/* create a new path */
static void newPath(ShapeParser *shape,
long x, long y)
{
Path *p;
long x1,y1;
p=&shape->curPath;
x1 = shape->matrix->getX(x, y);
y1 = shape->matrix->getY(x, y);
p->lastX = x1;
p->lastY = y1;
p->nb_edges = 0;
p->nb_segments = 0;
}
static void addSegment1(ShapeParser *shape,
long x, long y,
FillStyleDef *f0,
FillStyleDef *f1,
LineStyleDef *l)
{
Path *p;
p=&shape->curPath;
if (l) {
/* a line is defined ... it will be drawn later */
LineSegment *ls;
ls = new LineSegment;
if (ls != NULL) {
ls->l = l;
ls->x1 = p->lastX;
ls->y1 = p->lastY;
ls->x2 = x;
ls->y2 = y;
ls->first = (p->nb_segments == 0);
ls->next = NULL;
if (shape->last_line == NULL) {
shape->first_line = ls;
} else {
shape->last_line->next = ls;
}
shape->last_line = ls;
}
}
/* anti antialiasing not needed if line */
if (!shape->reverse) {
shape->gd->addSegment(p->lastX,p->lastY,x,y,f0,f1,l ? 0 : 1);
} else {
shape->gd->addSegment(p->lastX,p->lastY,x,y,f1,f0,l ? 0 : 1);
}
p->lastX = x;
p->lastY = y;
p->nb_segments++;
}
static void addLine(ShapeParser *shape, long x, long y,
FillStyleDef *f0,
FillStyleDef *f1,
LineStyleDef *l)
{
long x1,y1;
Path *p;
p=&shape->curPath;
x1 = shape->matrix->getX(x, y);
y1 = shape->matrix->getY(x, y);
addSegment1(shape,x1,y1,f0,f1,l);
p->nb_edges++;
}
// This is based on Divide and Conquer algorithm.
#define BFRAC_BITS 0
#define BFRAC (1 << BFRAC_BITS)
static void
bezierBuildPoints (ShapeParser *s,
int subdivisions,
long a1X, long a1Y,
long cX, long cY,
long a2X, long a2Y)
{
long c1X,c1Y;
long c2X,c2Y;
long X,Y;
long xmin,ymin,xmax,ymax;
if (subdivisions != 0) {
/* find the bounding box */
if (a1X < cX) {
xmin = a1X;
xmax = cX;
} else {
xmin = cX;
xmax = a1X;
}
if (a2X < xmin) xmin = a2X;
if (a2X > xmax) xmax = a2X;
if (a1Y < cY) {
ymin = a1Y;
ymax = cY;
} else {
ymin = cY;
ymax = a1Y;
}
if (a2Y < ymin) ymin = a2Y;
if (a2Y > ymax) ymax = a2Y;
if (((xmax - xmin) + (ymax - ymin)) >= (BFRAC*FRAC*2)) {
// Control point 1
c1X = (a1X+cX) >> 1;
c1Y = (a1Y+cY) >> 1;
// Control point 2
c2X = (a2X+cX) >> 1;
c2Y = (a2Y+cY) >> 1;
// New point
X = (c1X+c2X) >> 1;
Y = (c1Y+c2Y) >> 1;
subdivisions--;
bezierBuildPoints(s, subdivisions,
a1X, a1Y, c1X, c1Y, X, Y);
bezierBuildPoints(s, subdivisions,
X, Y, c2X, c2Y, a2X, a2Y);
return;
}
}
addSegment1(s, (a2X+(BFRAC/2)) >> BFRAC_BITS,
(a2Y+(BFRAC/2)) >> BFRAC_BITS, s->f0, s->f1, s->l);
}
/* this code is broken, but useful to get something */
static void flushPaths(ShapeParser *s)
{
LineSegment *ls;
LineStyleDef *l;
long nx,ny,nn,w;
GraphicDevice *gd = s->gd;
/* draw the filled polygon */
gd->drawPolygon();
/* draw the lines */
ls = s->first_line;
if (ls != NULL) {
do {
l = ls->l;
#if 0
printf("line %d %d %d %d width=%d\n",
ls->x1, ls->y1, ls->x2, ls->y2, l->width);
#endif
/* XXX: this width is false, but it is difficult (and expensive)
to have the correct one */
w = ABS((long)(s->matrix->a * l->width));
if (w <= ((3*FRAC)/2)) {
w = FRAC;
}
#ifdef THIN_LINES
if (w <= ((3*FRAC)/2)) {
// draw the thin lines only in shapeAction == shapeDraw
if (gd->scan_line_func == NULL) {
gd->setForegroundColor(l->fillstyle.color);
gd->drawLine(ls->x1, ls->y1, ls->x2, ls->y2, w);
}
} else {
#else
{
#endif
/* compute the normal vector */
nx = -(ls->y2 - ls->y1);
ny = (ls->x2 - ls->x1);
/* normalize & width */
nn = 2 * (long) sqrt(nx * nx + ny * ny);
#define UL ls->x1 + nx -ny, ls->y1 + ny +nx
#define UR ls->x2 + nx +ny, ls->y2 + ny -nx
#define LL ls->x1 - nx -ny, ls->y1 - ny +nx
#define LR ls->x2 - nx +ny, ls->y2 - ny -nx
if (nn > 0) {
nx = (nx * w) / nn;
ny = (ny * w) / nn;
/* top segment */
gd->addSegment(UL, UR, NULL, &l->fillstyle, 1);
/* bottom segment */
gd->addSegment(LL, LR, &l->fillstyle, NULL, 1);
/* right segment */
gd->addSegment(UR, LR, &l->fillstyle, NULL, 1);
/* left segment */
gd->addSegment(UL, LL, NULL, &l->fillstyle, 1);
/* draw the line polygon */
gd->drawPolygon();
}
}
ls = ls->next;
} while (ls != NULL);
/* delete the line structures */
ls = s->first_line;
while (ls != NULL) {
LineSegment *ls1;
ls1 = ls->next;
delete ls;
ls = ls1;
}
/* reset the line pointers */
s->first_line = NULL;
s->last_line = NULL;
}
}
static void addBezier(ShapeParser *shape,
long ctrlX1, long ctrlY1,
long newX1, long newY1,
FillStyleDef *f0,
FillStyleDef *f1,
LineStyleDef *l)
{
long newX,newY,ctrlX,ctrlY;
Path *p;
p=&shape->curPath;
/* note: we do the matrix multiplication before calculating the
bezier points (faster !) */
ctrlX = shape->matrix->getX(ctrlX1, ctrlY1);
ctrlY = shape->matrix->getY(ctrlX1, ctrlY1);
newX = shape->matrix->getX(newX1, newY1);
newY = shape->matrix->getY(newX1, newY1);
shape->f0 = f0;
shape->f1 = f1;
shape->l = l;
bezierBuildPoints(shape, 3,
p->lastX<<BFRAC_BITS,p->lastY<<BFRAC_BITS,
ctrlX<<BFRAC_BITS,ctrlY<<BFRAC_BITS,
newX<<BFRAC_BITS,newY<<BFRAC_BITS);
p->nb_edges++;
}
/***********************************************************************/
/* bit parser */
static void InitBitParser(struct BitParser *b,U8 *buf)
{
b->ptr = buf;
}
static void InitBits(struct BitParser *b)
{
// Reset the bit position and buffer.
b->m_bitPos = 0;
b->m_bitBuf = 0;
}
static inline U8 GetByte(struct BitParser *b)
{
U8 v;
v = *b->ptr++;
return v;
}
static inline U16 GetWord(struct BitParser *b)
{
U8 *s;
U16 v;
s = b->ptr;
v = s[0] | ((U16) s[1] << 8);
b->ptr = s + 2;
return v;
}
static inline U32 GetDWord(struct BitParser *b)
{
U32 v;
U8 * s = b->ptr;
v = (U32) s[0] | ((U32) s[1] << 8) |
((U32) s[2] << 16) | ((U32) s [3] << 24);
b->ptr = s + 4;
return v;
}
static inline U32 GetBit (struct BitParser *b)
{
U32 v;
S32 m_bitPos = b->m_bitPos;
U32 m_bitBuf = b->m_bitBuf;
if (m_bitPos == 0) {
m_bitBuf = (U32)(*b->ptr++) << 24;
m_bitPos = 8;
}
v = (m_bitBuf >> 31);
m_bitPos--;
m_bitBuf <<= 1;
b->m_bitPos = m_bitPos;
b->m_bitBuf = m_bitBuf;
return v;
}
static inline U32 GetBits (struct BitParser *b, int n)
{
U32 v;
S32 m_bitPos = b->m_bitPos;
U32 m_bitBuf = b->m_bitBuf;
if (n == 0)
return 0;
while (m_bitPos < n) {
m_bitBuf |= (U32)(*b->ptr++) << (24 - m_bitPos);
m_bitPos += 8;
}
v = m_bitBuf >> (32 - n);
m_bitBuf <<= n;
m_bitPos -= n;
b->m_bitPos = m_bitPos;
b->m_bitBuf = m_bitBuf;
return v;
}
// Get n bits from the string with sign extension.
static inline S32 GetSBits (struct BitParser *b,S32 n)
{
// Get the number as an unsigned value.
S32 v = (S32) GetBits(b,n);
// Is the number negative?
if (v & (1L << (n - 1)))
{
// Yes. Extend the sign.
v |= -1L << n;
}
return v;
}
/************************************************************************/
static void GetMatrix(BitParser *b, Matrix* mat)
{
InitBits(b);
// Scale terms
if (GetBit(b))
{
int nBits = (int) GetBits(b,5);
mat->a = (float)(GetSBits(b,nBits))/(float)0x10000;
mat->d = (float)(GetSBits(b,nBits))/(float)0x10000;
}
else
{
mat->a = mat->d = 1.0;
}
// Rotate/skew terms
if (GetBit(b))
{
int nBits = (int)GetBits(b,5);
mat->c = (float)(GetSBits(b,nBits))/(float)0x10000;
mat->b = (float)(GetSBits(b,nBits))/(float)0x10000;
}
else
{
mat->b = mat->c = 0.0;
}
// Translate terms
int nBits = (int) GetBits(b,5);
mat->tx = GetSBits(b,nBits);
mat->ty = GetSBits(b,nBits);
}
static FillStyleDef * ParseFillStyle(ShapeParser *shape, long *n, long getAlpha)
{
BitParser *b = &shape->bit_parser;
FillStyleDef *defs;
U16 i = 0;
// Get the number of fills.
U16 nFills = GetByte(b);
// Do we have a larger number?
if (nFills == 255)
{
// Get the larger number.
nFills = GetWord(b);
}
*n = nFills;
defs = new FillStyleDef[ nFills ];
if (defs == NULL) return NULL;
// Get each of the fill style.
for (i = 0; i < nFills; i++)
{
U16 fillStyle = GetByte(b);
defs[i].type = (FillType) fillStyle;
if (fillStyle & 0x10)
{
defs[i].type = (FillType) (fillStyle & 0x12);
// Get the gradient matrix.
GetMatrix(b,&(defs[i].matrix));
// Get the number of colors.
defs[i].gradient.nbGradients = GetByte(b);
// Get each of the colors.
for (U16 j = 0; j < defs[i].gradient.nbGradients; j++)
{
defs[i].gradient.ratio[j] = GetByte(b);
defs[i].gradient.color[j].red = GetByte(b);
defs[i].gradient.color[j].green = GetByte(b);
defs[i].gradient.color[j].blue = GetByte(b);
if (getAlpha) {
defs[i].gradient.color[j].alpha = GetByte(b);
} else {
defs[i].gradient.color[j].alpha = ALPHA_OPAQUE;
}
}
}
else if (fillStyle & 0x40)
{
defs[i].type = (FillType) (fillStyle & 0x41);
// Get the bitmapId
defs[i].bitmap = (Bitmap *)shape->dict->getCharacter(GetWord(b));
// Get the bitmap matrix.
GetMatrix(b,&(defs[i].matrix));
}
else
{
defs[i].type = (FillType) 0;
// A solid color
defs[i].color.red = GetByte(b);
defs[i].color.green = GetByte(b);
defs[i].color.blue = GetByte(b);
if (getAlpha) {
defs[i].color.alpha = GetByte(b);
} else {
defs[i].color.alpha = ALPHA_OPAQUE;
}
}
}
return defs;
}
static LineStyleDef * ParseLineStyle(ShapeParser *shape, long *n, long getAlpha)
{
BitParser *b = &shape->bit_parser;
LineStyleDef *defs,*def;
FillStyleDef *f;
long i;
// Get the number of lines.
U16 nLines = GetByte(b);
// Do we have a larger number?
if (nLines == 255)
{
// Get the larger number.
nLines = GetWord(b);
}
*n = nLines;
defs = new LineStyleDef[ nLines ];
if (defs == NULL) return NULL;
// Get each of the line styles.
for (i = 0; i < nLines; i++)
{
def=&defs[i];
def->width = GetWord(b);
def->color.red = GetByte(b);
def->color.green = GetByte(b);
def->color.blue = GetByte(b);
if (getAlpha) {
def->color.alpha = GetByte(b);
} else {
def->color.alpha = ALPHA_OPAQUE;
}
f=&def->fillstyle;
f->type = f_Solid;
f->color = def->color;
if (shape->cxform) {
f->color = shape->cxform->getColor(f->color);
}
f->color.pixel = shape->gd->allocColor(f->color);
}
return defs;
}
/* 0 = end of shape */
static int ParseShapeRecord(ShapeParser *shape, ShapeRecord *sr, long getAlpha)
{
BitParser *b = &shape->bit_parser;
// Determine if this is an edge.
BOOL isEdge = (BOOL) GetBit(b);
if (!isEdge)
{
// Handle a state change
U16 flags = (U16) GetBits(b,5);
// Are we at the end?
if (flags == 0)
{
// End of shape
return 0;
}
sr->type = shapeNonEdge;
sr->flags = (ShapeFlags)flags;
// Process a move to.
if (flags & flagsMoveTo)
{
U16 nBits = (U16) GetBits(b,5);
sr->x = GetSBits(b,nBits);
sr->y = GetSBits(b,nBits);
}
// Get new fill info.
if (flags & flagsFill0)
{
sr->fillStyle0 = GetBits(b,shape->m_nFillBits);
}
if (flags & flagsFill1)
{
sr->fillStyle1 = GetBits(b,shape->m_nFillBits);
}
// Get new line info
if (flags & flagsLine)
{
sr->lineStyle = GetBits(b,shape->m_nLineBits);
}
// Check to get a new set of styles for a new shape layer.
if (flags & flagsNewStyles)
{
FillStyleDef *fillDefs;
LineStyleDef *lineDefs;
long n;
// Parse the style.
fillDefs = ParseFillStyle(shape, &n, getAlpha);
if (fillDefs == NULL) return 0;
sr->newFillStyles = fillDefs;
sr->nbNewFillStyles = n;
lineDefs = ParseLineStyle(shape, &n, getAlpha);
if (lineDefs == NULL) return 0;
sr->newLineStyles = lineDefs;
sr->nbNewLineStyles = n;
InitBits(b); // Bug !
// Reset.
shape->m_nFillBits = (U16) GetBits(b,4);
shape->m_nLineBits = (U16) GetBits(b,4);
}
//if (flags & flagsEndShape)
//printf("\tEnd of shape.\n\n");
return flags & flagsEndShape ? 0 : 1;
}
else
{
if (GetBit(b))
{
sr->type = shapeLine;
// Handle a line
U16 nBits = (U16) GetBits(b,4) + 2; // nBits is biased by 2
// Save the deltas
if (GetBit(b))
{
// Handle a general line.
sr->dX = GetSBits(b,nBits);
sr->dY = GetSBits(b,nBits);
}
else
{
// Handle a vert or horiz line.
if (GetBit(b))
{
// Vertical line
sr->dY = GetSBits(b,nBits);
sr->dX = 0;
}
else
{
// Horizontal line
sr->dX = GetSBits(b,nBits);
sr->dY = 0;
}
}
}
else
{
sr->type = shapeCurve;
// Handle a curve
U16 nBits = (U16) GetBits(b,4) + 2; // nBits is biased by 2
// Get the control
sr->ctrlX = GetSBits(b,nBits);
sr->ctrlY = GetSBits(b,nBits);
// Get the anchor
sr->anchorX = GetSBits(b,nBits);
sr->anchorY = GetSBits(b,nBits);
}
return 1;
}
}
static void drawShape(GraphicDevice *gd, Matrix *matrix1, Cxform *cxform, Shape *shape,
ShapeAction shapeAction, void *id,ScanLineFunc scan_line_func)
{
LineStyleDef *l;
FillStyleDef *f0;
FillStyleDef *f1;
ShapeRecord sr1,*sr = &sr1;
int firstPoint;
long lastX,lastY;
LineStyleDef *curLineStyle;
long curNbLineStyles;
FillStyleDef *curFillStyle;
long curNbFillStyles;
StyleList *sl;
ShapeParser sp1,*sp=&sp1;
BitParser *b;
Matrix mat,*matrix;
mat = (*gd->adjust) * (*matrix1);
matrix = &mat;
sp->reverse = (mat.a * mat.d) < 0;
curLineStyle = NULL;
curNbLineStyles = 0;
curFillStyle = NULL;
curNbFillStyles = 0;
sp->style_list = NULL;
sp->shape = shape;
sp->gd = gd;
sp->matrix = matrix;
sp->cxform = cxform;
sp->dict = shape->dict;
if (shapeAction == ShapeGetRegion) {
gd->scan_line_func = scan_line_func;
gd->scan_line_func_id = id;
} else {
gd->scan_line_func = NULL;
}
b = &sp->bit_parser;
InitBitParser(b,shape->file_ptr);
if (shape->getStyles) {
// ShapeWithStyle
curFillStyle = ParseFillStyle(sp, &curNbFillStyles, shape->getAlpha);
if (curFillStyle == NULL) return;
curLineStyle = ParseLineStyle(sp, &curNbLineStyles, shape->getAlpha);
if (curLineStyle == NULL) return;
sl = new StyleList;
if (sl == NULL) return;
sl->next = NULL;
sl->newFillStyles = curFillStyle;
sl->nbNewFillStyles = curNbFillStyles;
sl->newLineStyles = curLineStyle;
sl->nbNewLineStyles = curNbLineStyles;
sp->style_list = sl;
if (shapeAction == ShapeDraw) {
prepareStyles(gd, matrix, cxform, curFillStyle, curNbFillStyles);
}
}
InitBits(b);
sp->m_nFillBits = (U16) GetBits(b,4);
sp->m_nLineBits = (U16) GetBits(b,4);
l = 0;
f0 = 0;
f1 = 0;
firstPoint = 1;
lastX = 0;
lastY = 0;
sp->curPath.nb_edges = 0;
sp->first_line = NULL;
sp->last_line = NULL;
for(;;) {
if (ParseShapeRecord(sp, sr, shape->getAlpha) == 0) break;
switch (sr->type)
{
case shapeNonEdge:
if (sr->flags & flagsNewStyles) {
curFillStyle = sr->newFillStyles;
curNbFillStyles = sr->nbNewFillStyles;
curLineStyle = sr->newLineStyles;
curNbLineStyles = sr->nbNewLineStyles;
sl = new StyleList;
sl->next = sp->style_list;
sl->newFillStyles = sr->newFillStyles;
sl->nbNewFillStyles = sr->nbNewFillStyles;
sl->newLineStyles = sr->newLineStyles;
sl->nbNewLineStyles = sr->nbNewLineStyles;
sp->style_list = sl;
if (shapeAction == ShapeDraw) {
prepareStyles(gd, matrix, cxform, curFillStyle, curNbFillStyles);
}
}
if (sr->flags & flagsFill0) {
if (sr->fillStyle0) {
if (curFillStyle) {
f0 = &curFillStyle[sr->fillStyle0-1];
} else {
f0 = &shape->defaultFillStyle;
}
} else {
f0 = 0;
}
}
if (sr->flags & flagsFill1) {
if (sr->fillStyle1) {
if (curFillStyle) {
f1 = &curFillStyle[sr->fillStyle1-1];
} else {
f1 = &shape->defaultFillStyle;
}
} else {
f1 = 0;
}
}
if (sr->flags & flagsLine) {
if (sr->lineStyle) {
l = &curLineStyle[sr->lineStyle-1];
} else {
l = 0;
}
}
if (sr->flags & flagsMoveTo) {
if (sp->curPath.nb_edges == 0) {
/* if no edges, draw the polygon, then the lines */
flushPaths(sp);
}
newPath(sp, sr->x, sr->y);
firstPoint = 0;
lastX = sr->x;
lastY = sr->y;
#if PRINT
printf("---------\nX,Y = %4d,%4d\n", sr->x/20, sr->y/20);
#endif
}
break;
case shapeCurve:
// Handle Bezier Curves !!!
if (firstPoint) {
newPath(sp, 0, 0);
firstPoint = 0;
}
{
long newX,newY,ctrlX,ctrlY;
ctrlX = lastX+sr->ctrlX;
ctrlY = lastY+sr->ctrlY;
newX = ctrlX+sr->anchorX;
newY = ctrlY+sr->anchorY;
#if 1
addBezier(sp, ctrlX, ctrlY, newX, newY, f0 , f1, l);
#else
addLine(sp, newX, newY, f0, f1, l);
#endif
lastX = newX;
lastY = newY;
}
break;
case shapeLine:
if (firstPoint) {
newPath(sp, 0, 0);
firstPoint = 0;
}
lastX += sr->dX;
lastY += sr->dY;
addLine(sp, lastX, lastY, f0, f1, l);
#if PRINT
printf(" X, Y = %4d,%4d\n", lastX/20, lastY/20);
#endif
break;
}
}
/* XXX: should test if there is something to draw */
flushPaths(sp);
/* free the styles */
while (sp->style_list) {
StyleList *sl;
sl=sp->style_list;
sp->style_list = sl->next;
if (shapeAction == ShapeDraw) {
clearStyles(gd, sl->newFillStyles, sl->nbNewFillStyles);
}
delete[] sl->newFillStyles;
delete[] sl->newLineStyles;
delete sl;
}
}
static void
prepareStyles(GraphicDevice *gd, Matrix *matrix, Cxform *cxform,
FillStyleDef *ftab, long n)
{
long fs;
FillStyleDef *f;
for(fs = 0; fs < n; fs++)
{
f = ftab + fs;
switch (f->type)
{
case f_None:
break;
case f_Solid:
if (cxform) {
f->color = cxform->getColor(f->color);
}
f->color.pixel = gd->allocColor(f->color);
break;
case f_LinearGradient:
case f_RadialGradient:
{
Matrix mat;
int n,r,l;
long red, green, blue, alpha;
long dRed, dGreen, dBlue, dAlpha;
long min,max;
Matrix *m;
mat = *(matrix) * f->matrix;
// Compute inverted matrix
f->gradient.imat = mat.invert();
/* renormalize the matrix */
m=&f->gradient.imat;
if (f->type == f_LinearGradient) {
m->a = m->a * FRAC * (1/128.0) * 65536.0;
m->b = m->b * FRAC * (1/128.0) * 65536.0;
m->tx = (long) ((m->tx + 16384) * (1/128.0) * 65536.0);
} else {
m->a = m->a * FRAC * (1/64.0) * 65536.0;
m->b = m->b * FRAC * (1/64.0) * 65536.0;
m->c = m->c * FRAC * (1/64.0) * 65536.0;
m->d = m->d * FRAC * (1/64.0) * 65536.0;
m->tx = (long) (m->tx * (1/64.0) * 65536.0);
m->ty = (long) (m->ty * (1/64.0) * 65536.0);
}
// Reset translation in inverted matrix
f->gradient.has_alpha = 0;
// Build a 256 color ramp
f->gradient.ramp = new Color[256];
if (f->gradient.ramp == NULL) {
// Invalidate fill style
f->type = f_None;
continue;
}
// Store min and max
min = f->gradient.ratio[0];
max = f->gradient.ratio[f->gradient.nbGradients-1];
for(r=0; r < f->gradient.nbGradients-1; r++)
{
Color start,end;
l = f->gradient.ratio[r+1]-f->gradient.ratio[r];
if (l == 0) continue;
if (cxform) {
start = cxform->getColor(f->gradient.color[r]);
end = cxform->getColor(f->gradient.color[r+1]);
} else {
start = f->gradient.color[r];
end = f->gradient.color[r+1];
}
if (start.alpha != ALPHA_OPAQUE ||
end.alpha != ALPHA_OPAQUE) {
f->gradient.has_alpha = 1;
}
dRed = end.red - start.red;
dGreen = end.green - start.green;
dBlue = end.blue - start.blue;
dAlpha = end.alpha - start.alpha;
dRed = (dRed<<16)/l;
dGreen = (dGreen<<16)/l;
dBlue = (dBlue<<16)/l;
dAlpha = (dAlpha<<16)/l;
red = start.red <<16;
green = start.green <<16;
blue = start.blue <<16;
alpha = start.alpha <<16;
for (n=f->gradient.ratio[r]; n<=f->gradient.ratio[r+1]; n++) {
f->gradient.ramp[n].red = red>>16;
f->gradient.ramp[n].green = green>>16;
f->gradient.ramp[n].blue = blue>>16;
f->gradient.ramp[n].alpha = alpha>>16;
f->gradient.ramp[n].pixel = gd->allocColor(f->gradient.ramp[n]);
red += dRed;
green += dGreen;
blue += dBlue;
alpha += dAlpha;
}
}
for(n=0; n<min; n++) {
f->gradient.ramp[n] = f->gradient.ramp[min];
}
for(n=max; n<256; n++) {
f->gradient.ramp[n] = f->gradient.ramp[max];
}
}
break;
case f_TiledBitmap:
case f_clippedBitmap:
if (f->bitmap) {
Matrix *m;
f->cmap = gd->getColormap(f->bitmap->colormap,
f->bitmap->nbColors, cxform);
if (f->cmap == NULL) {
/* Get the normal cmap anyway */
f->cmap = f->bitmap->colormap;
}
f->bitmap_matrix = *(matrix) * f->matrix;
f->bitmap_matrix = f->bitmap_matrix.invert();
m=&f->bitmap_matrix;
m->a = m->a * FRAC * 65536.0;
m->b = m->b * FRAC * 65536.0;
m->c = m->c * FRAC * 65536.0;
m->d = m->d * FRAC * 65536.0;
m->tx = (long) (m->tx * 65536.0);
m->ty = (long) (m->ty * 65536.0);
f->alpha_table = NULL;
if (f->bitmap->alpha_buf && cxform) {
unsigned char *alpha_table;
int i;
alpha_table = (unsigned char *)malloc (256);
if (alpha_table != NULL) {
for(i=0;i<256;i++) {
alpha_table[i] = cxform->getAlpha(i);
}
}
f->alpha_table = alpha_table;
}
}
break;
}
}
}
static void
clearStyles(GraphicDevice *gd, FillStyleDef *ftab, long n)
{
long fs;
FillStyleDef *f;
for(fs = 0; fs < n; fs++)
{
f = ftab + fs;
switch (f->type)
{
case f_Solid:
break;
case f_LinearGradient:
case f_RadialGradient:
if (f->gradient.ramp) {
delete f->gradient.ramp;
}
break;
case f_TiledBitmap:
case f_clippedBitmap:
if (f->bitmap) {
if (f->cmap && f->cmap != f->bitmap->colormap) delete f->cmap;
if (f->alpha_table) free(f->alpha_table);
}
break;
case f_None:
break;
}
}
}
diff --git a/core/multimedia/opieplayer/libmad/config.in b/core/multimedia/opieplayer/libmad/config.in
index 72249dc..f38e52d 100644
--- a/core/multimedia/opieplayer/libmad/config.in
+++ b/core/multimedia/opieplayer/libmad/config.in
@@ -1,4 +1,4 @@
config LIBMAD
boolean "opieplayer1-libmadplugin (plugin with shoutcast/icecast support to play MP3 files)"
default "y"
- depends ( LIBQPE || LIBQPE-X11 ) && LIBOPIE && OPIEPLAYER
+ depends ( LIBQPE || LIBQPE-X11 ) && OPIEPLAYER
diff --git a/core/multimedia/opieplayer/libmpeg3/config.in b/core/multimedia/opieplayer/libmpeg3/config.in
index b965a40..d964fb9 100644
--- a/core/multimedia/opieplayer/libmpeg3/config.in
+++ b/core/multimedia/opieplayer/libmpeg3/config.in
@@ -1,4 +1,4 @@
config LIBMPEG3
boolean "opieplayer1-libmpeg3plugin (play MPEG3 video files)"
default "y"
- depends ( LIBQPE || LIBQPE-X11 ) && LIBOPIE && OPIEPLAYER
+ depends ( LIBQPE || LIBQPE-X11 ) && OPIEPLAYER
diff --git a/core/multimedia/opieplayer/modplug/config.in b/core/multimedia/opieplayer/modplug/config.in
index 86e4725..d7496b0 100644
--- a/core/multimedia/opieplayer/modplug/config.in
+++ b/core/multimedia/opieplayer/modplug/config.in
@@ -1,4 +1,4 @@
config MODPLUG
boolean "opieplayer1-modplugin (play MOD/XM/S3M/IT amiga tracker modules)"
default "y"
- depends ( LIBQPE || LIBQPE-X11 ) && LIBOPIE && OPIEPLAYER
+ depends ( LIBQPE || LIBQPE-X11 ) && OPIEPLAYER
diff --git a/core/multimedia/opieplayer/wavplugin/config.in b/core/multimedia/opieplayer/wavplugin/config.in
index 56bdfab..b7dddc5 100644
--- a/core/multimedia/opieplayer/wavplugin/config.in
+++ b/core/multimedia/opieplayer/wavplugin/config.in
@@ -1,4 +1,4 @@
config WAVPLUGIN
boolean "opieplayer1-wavplugin (play WAV files)"
default "y"
- depends ( LIBQPE || LIBQPE-X11 ) && LIBOPIE && OPIEPLAYER
+ depends ( LIBQPE || LIBQPE-X11 ) && OPIEPLAYER