netsurf/atari/plot/plotter_vdi.c

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/*
* Copyright 2010 Ole Loots <ole@monochrom.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf 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 <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <assert.h>
#include <windom.h>
#include <Hermes/Hermes.h>
#include "atari/plot/eddi.h"
#include "atari/plot/plotter.h"
#include "atari/plot/plotter_vdi.h"
#include "atari/plot/font_vdi.h"
/* assign vdi line style to dst ( netsurf type ) */
#define NSLT2VDI(dst, src) \
dst = 0;\
switch( src->stroke_type ) {\
case PLOT_OP_TYPE_DOT: \
dst = (0xAAAA00 | 7);\
break;\
case PLOT_OP_TYPE_DASH:\
dst = 3; \
break;\
case PLOT_OP_TYPE_SOLID:\
case PLOT_OP_TYPE_NONE:\
default:\
dst = 1;\
break;\
}\
static int dtor( GEM_PLOTTER self );
static int resize( GEM_PLOTTER self, int w, int h );
static int move( GEM_PLOTTER self, short x, short y );
static void * lock( GEM_PLOTTER self );
static int unlock( GEM_PLOTTER self );
static int update_region( GEM_PLOTTER self, GRECT region );
static int update_screen_region( GEM_PLOTTER self, GRECT region );
static int update_screen( GEM_PLOTTER self );
static int put_pixel(GEM_PLOTTER self, int x, int y, int color );
static int copy_rect( GEM_PLOTTER self, GRECT src, GRECT dst );
static int arc(GEM_PLOTTER self,int x, int y, int radius, int angle1, int angle2, const plot_style_t * pstyle);
static int disc(GEM_PLOTTER self,int x, int y, int radius, const plot_style_t * pstyle);
static int line(GEM_PLOTTER self,int x0, int y0, int x1, int y1, const plot_style_t * pstyle);
static int rectangle(GEM_PLOTTER self,int x0, int y0, int x1, int y1, const plot_style_t * pstyle);
static int polygon(GEM_PLOTTER self,const int *p, unsigned int n, const plot_style_t * pstyle);
static int path(GEM_PLOTTER self,const float *p, unsigned int n, int fill, float width, int c, const float transform[6]);
static int bitmap_resize( GEM_PLOTTER self, struct bitmap * img, int nw, int nh );
static int bitmap( GEM_PLOTTER self, struct bitmap * bmp, int x, int y,
unsigned long bg, unsigned long flags );
static int plot_mfdb( GEM_PLOTTER self, GRECT * where, MFDB * mfdb, uint32_t flags);
static int text(GEM_PLOTTER self, int x, int y, const char *text,size_t length, const plot_font_style_t *fstyle);
static unsigned short sys_pal[256][3]; /*RGB*/
static unsigned short pal[256][3]; /*RGB*/
extern unsigned char rgb_web_pal[126][3];
extern unsigned short vdi_web_pal[126][3];
extern struct s_vdi_sysinfo vdi_sysinfo;
static HermesHandle hermes_pal_h; /* hermes palette handle */
static HermesHandle hermes_cnv_h; /* hermes converter instance handle */
static HermesHandle hermes_res_h;
int32 * hermes_pal_p;
static inline void vsl_rgbcolor( short vdih, uint32_t cin )
{
if( vdi_sysinfo.scr_bpp > 8 ) {
unsigned short c[4];
rgb_to_vdi1000( (unsigned char*)&cin, (unsigned short*)&c );
vs_color( vdih, OFFSET_CUSTOM_COLOR, (unsigned short*)&c[0] );
vsl_color( vdih, OFFSET_CUSTOM_COLOR );
} else {
if( vdi_sysinfo.scr_bpp >= 4 )
vsl_color( vdih, RGB_TO_VDI(cin) );
else
vsl_color( vdih, BLACK );
}
}
static inline void vsf_rgbcolor( short vdih, uint32_t cin )
{
if( vdi_sysinfo.scr_bpp > 8 ) {
unsigned short c[4];
rgb_to_vdi1000( (unsigned char*)&cin, (unsigned short*)&c );
vs_color( vdih, OFFSET_CUSTOM_COLOR, &c[0] );
vsf_color( vdih, OFFSET_CUSTOM_COLOR );
} else {
if( vdi_sysinfo.scr_bpp >= 4 )
vsf_color( vdih, RGB_TO_VDI(cin) );
else
vsf_color( vdih, WHITE );
}
}
int ctor_plotter_vdi(GEM_PLOTTER self )
{
int retval = 0;
int i;
struct rect clip;
self->dtor = dtor;
self->resize= resize;
self->move = move;
self->lock = lock;
self->unlock = unlock;
self->update_region = update_region;
self->update_screen_region = update_screen_region;
self->update_screen = update_screen;
self->put_pixel = put_pixel;
self->copy_rect = copy_rect;
self->clip = plotter_std_clip;
self->arc = arc;
self->disc = disc;
self->line = line;
self->rectangle = rectangle;
self->polygon = polygon;
self->path = path;
self->bitmap = bitmap;
self->bitmap_resize = bitmap_resize;
self->plot_mfdb = plot_mfdb;
self->text = text;
LOG(("Screen: x: %d, y: %d\n", vdi_sysinfo.scr_w, vdi_sysinfo.scr_h));
self->priv_data = malloc( sizeof(struct s_vdi_priv_data) );
if( self->priv_data == NULL )
return( 0-ERR_NO_MEM );
memset( self->priv_data, 0, sizeof(struct s_vdi_priv_data) );
DUMMY_PRIV(self)->bufops = 0;
DUMMY_PRIV(self)->size_buf_packed = 0;
DUMMY_PRIV(self)->size_buf_planar = 0;
DUMMY_PRIV(self)->buf_packed = NULL;
DUMMY_PRIV(self)->buf_planar = NULL;
if( vdi_sysinfo.vdiformat == VDI_FORMAT_PACK ) {
self->bpp_virt = vdi_sysinfo.scr_bpp;
} else {
DUMMY_PRIV(self)->bufops = C2P;
self->bpp_virt = 8;
}
if( FIRSTFB(self).w > vdi_sysinfo.scr_w || FIRSTFB(self).h > vdi_sysinfo.scr_h ){
return( 0-ERR_BUFFERSIZE_EXCEEDS_SCREEN );
}
FIRSTFB(self).size = calc_chunked_buffer_size( FIRSTFB(self).w, FIRSTFB(self).h, FIRSTFB(self).w, self->bpp_virt );
/* offscreen: FIRSTFB(self).mem = malloc( FIRSTFB(self).size ); */
FIRSTFB(self).mem = NULL;
update_visible_rect( self );
clip.x0 = 0;
clip.y0 = 0;
clip.x1 = FIRSTFB(self).w;
clip.y1 = FIRSTFB(self).h;
self->clip( self, &clip );
/* store system palette & setup the new (web) palette: */
i = 0;
if( app.nplanes <= 8 ){
for( i=0; i<=255; i++ ) {
vq_color(self->vdi_handle, i, 1, (unsigned short*)&sys_pal[i][0] );
if( i<OFFSET_WEB_PAL ) {
pal[i][0] = sys_pal[i][0];
pal[i][1] = sys_pal[i][1];
pal[i][2] = sys_pal[i][2];
} else if( app.nplanes >= 8 ) {
if ( i < OFFSET_CUST_PAL ){
pal[i][0] = vdi_web_pal[i-OFFSET_WEB_PAL][0];
pal[i][1] = vdi_web_pal[i-OFFSET_WEB_PAL][1];
pal[i][2] = vdi_web_pal[i-OFFSET_WEB_PAL][2];
}
if( i >= OFFSET_CUST_PAL ) {
/* here we could define 22 additional colors... */
}
vs_color( self->vdi_handle, i, &pal[i][0] );
}
}
} else {
/* no need to change the palette - its application specific */
}
unsigned char * col;
assert( Hermes_Init() );
/*
hermes_pal_h = Hermes_PaletteInstance();
hermes_pal_p = Hermes_PaletteGet(hermes_pal_h);
assert(hermes_pal_p);
for( i = 0; i<OFFSET_CUST_PAL; i++) {
col = (unsigned char *)(hermes_pal_p+i);
if( i < OFFSET_WEB_PAL ) {
col[0] = sys_pal[i][0];
col[1] = sys_pal[i][1];
col[2] = sys_pal[i][2];
}
if( i >= OFFSET_WEB_PAL ) {
col[0] = rgb_web_pal[i-OFFSET_WEB_PAL][0];
col[1] = rgb_web_pal[i-OFFSET_WEB_PAL][1];
col[2] = rgb_web_pal[i-OFFSET_WEB_PAL][2];
}
col[3] = 0;
}
Hermes_PaletteInvalidateCache(hermes_pal_h);
*/
unsigned long flags = ( self->flags & PLOT_FLAG_DITHER ) ? HERMES_CONVERT_DITHER : 0;
hermes_cnv_h = Hermes_ConverterInstance( flags );
assert( hermes_cnv_h );
hermes_res_h = Hermes_ConverterInstance( flags );
assert( hermes_res_h );
/* set up the src & dst format: */
/* netsurf uses RGBA ... */
DUMMY_PRIV(self)->nsfmt.a = 0xFFUL;
DUMMY_PRIV(self)->nsfmt.b = 0x0FF00UL;
DUMMY_PRIV(self)->nsfmt.g = 0x0FF0000UL;
DUMMY_PRIV(self)->nsfmt.r = 0x0FF000000UL;
DUMMY_PRIV(self)->nsfmt.bits = 32;
DUMMY_PRIV(self)->nsfmt.indexed = false;
DUMMY_PRIV(self)->nsfmt.has_colorkey = false;
DUMMY_PRIV(self)->vfmt.r = vdi_sysinfo.mask_r;
DUMMY_PRIV(self)->vfmt.g = vdi_sysinfo.mask_g;
DUMMY_PRIV(self)->vfmt.b = vdi_sysinfo.mask_b;
DUMMY_PRIV(self)->vfmt.a = vdi_sysinfo.mask_a;
DUMMY_PRIV(self)->vfmt.bits = self->bpp_virt;
DUMMY_PRIV(self)->vfmt.indexed = false;
DUMMY_PRIV(self)->vfmt.has_colorkey = false;
return( 1 );
}
static int dtor( GEM_PLOTTER self )
{
int i=0;
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
for( i=0; i<MAX_FRAMEBUFS; i++) {
if( self->fbuf[i].mem != NULL )
free( self->fbuf[i].mem );
}
if( app.nplanes <= 8 ){
/* restore system palette */
for( i=0; i<=255; i++ ) {
vs_color( self->vdi_handle, i, &sys_pal[i][0] );
}
}
/* close Hermes stuff: */
Hermes_ConverterReturn( hermes_cnv_h );
/* Hermes_PaletteReturn( hermes_pal_h ); */
Hermes_Done();
if( self->priv_data != NULL ){
if( DUMMY_PRIV(self)->buf_packed )
free( DUMMY_PRIV(self)->buf_packed );
if( DUMMY_PRIV(self)->buf_planar )
free( DUMMY_PRIV(self)->buf_planar );
free( self->priv_data );
}
return( 1 );
}
static int resize( GEM_PLOTTER self, int w, int h )
{
if( w == CURFB(self).w && h == CURFB(self).h )
return( 1 );
int newsize = calc_chunked_buffer_size( w, h, w, self->bpp_virt );
LOG(("%s: %s, oldsize: %d\n", (char*)__FILE__, __FUNCTION__, CURFB(self).size ));
/* todo: needed when using offscreen buffers...
if( newsize > self->screen_buffer_size ) {
self->screen_buffer_size = newsize;
self->screen_buffer =realloc( self->screen_buffer , self->screen_buffer_size );
}
*/
CURFB(self).w = w;
CURFB(self).h = h;
update_visible_rect( self );
LOG(("%s: %s, newsize: %d\n", (char*)__FILE__, (char*)__FUNCTION__, CURFB(self).size ));
return( 1 );
}
static int move( GEM_PLOTTER self,short x, short y )
{
bool upd;
if(x == CURFB(self).x && y == CURFB(self).y ){
return 1;
}
LOG(("%s: x: %d, y: %d\n",(char*)__FUNCTION__, x, y));
CURFB(self).x = x;
CURFB(self).y = y;
update_visible_rect( self );
return( 1 );
}
static void * lock( GEM_PLOTTER self )
{
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
self->flags |= PLOT_FLAG_LOCKED;
wind_update(BEG_UPDATE);
wind_update(BEG_MCTRL);
graf_mouse(M_OFF, NULL);
return( NULL );
}
static int unlock( GEM_PLOTTER self )
{
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
self->flags &= ~PLOT_FLAG_LOCKED;
wind_update(END_MCTRL);
wind_update(END_UPDATE);
graf_mouse(M_ON, NULL);
return( 1 );
}
/*
region specifies an rectangle within the framebuffer
calculation of screen coords is done automatically.
*/
static int update_region( GEM_PLOTTER self, GRECT region )
{
int src_offs;
GRECT screen_area, tmp, visible;
short pxy[10];
plotter_get_visible_grect( self, &visible );
/*
LOG(("%s: %s %d\n", (char*)__FILE__, __FUNCTION__, __LINE__));
LOG(("region: x:%d, y:%d, w:%d, h:%d\n", region.g_x, region.g_y, region.g_w, region.g_h ));
LOG(("visible: x:%d, y:%d, w:%d, h:%d\n", visible.g_x, visible.g_y, visible.g_w, visible.g_h ));
*/
/* sanitize region: */
tmp = region;
if( !rc_intersect(&visible, &tmp) )
return( 0 );
/*
region is partially out of bottom or left:
if( region.g_x < self->visible.g_x )
{
region.g_w = self->visible.g_x - region.g_x;
region.g_x = self->visible.g_x;
}
if( region.g_y < self->visible.g_y )
{
region.g_h = self->visible.g_y - region.g_y;
region.g_y = self->visible.g_y;
}
region is partially out of top or right:
if( region.g_x + region.g_w > self->visible.g_x + self->visible.g_w )
{
region.g_w = self->visible.g_w - region.g_x;
}
if( region.g_y + region.g_h > self->visible.g_y + self->visible.g_h )
{
region.g_h = self->visible.g_h - region.g_y;
}
now region contains coords of framebuffer that needs redraw.
*/
if( fbrect_to_screen( self, tmp, &screen_area) ) {
pxy[0] = screen_area.g_x;
pxy[1] = screen_area.g_y;
pxy[2] = screen_area.g_x + screen_area.g_w;
pxy[3] = screen_area.g_y;
pxy[4] = screen_area.g_x + screen_area.g_w;
pxy[5] = screen_area.g_y + screen_area.g_h;
pxy[6] = screen_area.g_x;
pxy[7] = screen_area.g_y + screen_area.g_h;
pxy[8] = screen_area.g_x;
pxy[9] = screen_area.g_y;
}
return( 1 );
}
/*
region specifies an rectangle within the screen,
calculation of framebuffer coords is done automatically.
*/
static int update_screen_region( GEM_PLOTTER self, GRECT region )
{
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
return( 1 );
}
/* Updates all visible parts of the framebuffer */
static int update_screen( GEM_PLOTTER self )
{
GRECT target, src;
int src_offset;
int i,x;
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
if( !(PLOT_FLAG_OFFSCREEN & self->flags) )
return( 0 );
target.g_x = src.g_x = 0;
target.g_y = src.g_y = 0;
target.g_w = src.g_w = CURFB(self).w;
target.g_h = src.g_h = CURFB(self).h;
if( !fbrect_to_screen( self, target, &target ) )
return( -1 );
src_offset = get_pixel_offset( CURFB(self).vis_x, CURFB(self).vis_y, CURFB(self).w, self->bpp_virt );
LOG(("area: x:%d ,y:%d ,w:%d ,h:%d, from: %p (offset: %d) \n",
target.g_x, target.g_y,
target.g_w, target.g_h,
((char*)CURFB(self).mem)+src_offset, src_offset
));
return( 1 );
}
static int put_pixel(GEM_PLOTTER self, int x, int y, int color )
{
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
return( 1 );
}
static int copy_rect( GEM_PLOTTER self, GRECT src, GRECT dst )
{
MFDB devmf;
MFDB scrmf;
short pxy[8];
GRECT vis;
/* clip to visible rect, only needed for onscreen renderer: */
plotter_get_visible_grect( self, &vis );
if( !rc_intersect(&vis, &src) )
return 1;
if( !rc_intersect(&vis, &dst) )
return 1;
src.g_x = CURFB(self).x + src.g_x;
src.g_y = CURFB(self).y + src.g_y;
dst.g_x = CURFB(self).x + dst.g_x;
dst.g_y = CURFB(self).y + dst.g_y;
devmf.fd_addr = NULL;
devmf.fd_w = src.g_w;
devmf.fd_h = src.g_h;
devmf.fd_wdwidth = 0;
devmf.fd_stand = 0;
devmf.fd_nplanes = 0;
devmf.fd_r1 = devmf.fd_r2 = devmf.fd_r3 = 0;
scrmf.fd_addr = NULL;
scrmf.fd_w = dst.g_w;
scrmf.fd_h = dst.g_h;
scrmf.fd_wdwidth = 0 ;
scrmf.fd_stand = 0;
scrmf.fd_nplanes = 0;
scrmf.fd_r1 = scrmf.fd_r2 = scrmf.fd_r3 = 0;
pxy[0] = src.g_x;
pxy[1] = src.g_y;
pxy[2] = pxy[0] + src.g_w-1;
pxy[3] = pxy[1] + src.g_h-1;
pxy[4] = dst.g_x;
pxy[5] = dst.g_y;
pxy[6] = pxy[4] + dst.g_w-1;
pxy[7] = pxy[5] + dst.g_h-1;
self->lock( self );
vro_cpyfm( self->vdi_handle, S_ONLY, (short*)&pxy, &devmf, &scrmf);
self->unlock( self );
return( 1 );
}
static int arc(GEM_PLOTTER self,int x, int y, int radius, int angle1, int angle2, const plot_style_t * pstyle)
{
//plotter_vdi_clip( self, 1);
vswr_mode( self->vdi_handle, MD_REPLACE );
if( pstyle->fill_type == PLOT_OP_TYPE_NONE )
return 1;
if( pstyle->fill_type != PLOT_OP_TYPE_SOLID) {
vsl_rgbcolor( self->vdi_handle, pstyle->stroke_colour);
vsf_perimeter( self->vdi_handle, 1);
vsf_interior( self->vdi_handle, 1 );
v_arc( self->vdi_handle, CURFB(self).x + x, CURFB(self).y + y, radius, angle1*10, angle2*10 );
} else {
vsf_rgbcolor( self->vdi_handle, pstyle->fill_colour);
vsl_width( self->vdi_handle, 1 );
vsf_perimeter( self->vdi_handle, 1);
v_arc( self->vdi_handle, CURFB(self).x + x, CURFB(self).y + y, radius, angle1*10, angle2*10 );
}
//plotter_vdi_clip( self, 0);
return ( 1 );
}
static int disc(GEM_PLOTTER self,int x, int y, int radius, const plot_style_t * pstyle)
{
plotter_vdi_clip( self, 1);
if( pstyle->fill_type != PLOT_OP_TYPE_SOLID) {
vsf_rgbcolor( self->vdi_handle, pstyle->stroke_colour );
vsf_perimeter( self->vdi_handle, 1);
vsf_interior( self->vdi_handle, 0 );
v_circle( self->vdi_handle, CURFB(self).x + x, CURFB(self).y + y, radius );
} else {
vsf_rgbcolor( self->vdi_handle, pstyle->fill_colour );
vsf_perimeter( self->vdi_handle, 0);
vsf_interior( self->vdi_handle, FIS_SOLID );
v_circle( self->vdi_handle, CURFB(self).x + x, CURFB(self).y + y, radius );
}
plotter_vdi_clip( self, 0);
return ( 1 );
}
static int line(GEM_PLOTTER self,int x0, int y0, int x1, int y1, const plot_style_t * pstyle)
{
short pxy[4];
uint32_t lt;
int sw = pstyle->stroke_width;
pxy[0] = CURFB(self).x + x0;
pxy[1] = CURFB(self).y + y0;
pxy[2] = CURFB(self).x + x1;
pxy[3] = CURFB(self).y + y1;
plotter_vdi_clip( self, 1);
if( sw == 0)
sw = 1;
NSLT2VDI(lt, pstyle)
vsl_type( self->vdi_handle, (lt&0x0F) );
/* if the line style is not available within VDI system,define own style: */
if( (lt&0x0F) == 7 ){
vsl_udsty(self->vdi_handle, ((lt&0xFFFF00) >> 8) );
}
vsl_width( self->vdi_handle, (short)sw );
vsl_rgbcolor( self->vdi_handle, pstyle->stroke_colour );
v_pline(self->vdi_handle, 2, (short *)&pxy );
plotter_vdi_clip( self, 0);
return ( 1 );
}
static int rectangle(GEM_PLOTTER self,int x0, int y0, int x1, int y1, const plot_style_t * pstyle)
{
short pxy[10];
GRECT r, rclip, sclip;
rclip.g_x = self->clipping.x0;
rclip.g_y = self->clipping.y0;
rclip.g_w = self->clipping.x1 - self->clipping.x0;
rclip.g_h = self->clipping.y1 - self->clipping.y0;
sclip.g_x = rclip.g_x;
sclip.g_y = rclip.g_y;
sclip.g_w = CURFB(self).vis_w;
sclip.g_h = CURFB(self).vis_h;
rc_intersect(&sclip, &rclip);
r.g_x = x0;
r.g_y = y0;
r.g_w = x1 - x0;
r.g_h = y1 - y0;
if( !rc_intersect( &rclip, &r ) ) {
return( 1 );
}
vsf_rgbcolor( self->vdi_handle, pstyle->fill_colour );
vsf_perimeter( self->vdi_handle, 0);
vsf_interior( self->vdi_handle, FIS_SOLID );
pxy[0] = CURFB(self).x + r.g_x;
pxy[1] = CURFB(self).y + r.g_y;
pxy[2] = CURFB(self).x + r.g_x + r.g_w -1;
pxy[3] = CURFB(self).y + r.g_y + r.g_h -1;
vsf_style( self->vdi_handle, 1);
if( pstyle->stroke_type != PLOT_OP_TYPE_NONE ){
self->line(self, x0, y0, x1, y0 , pstyle);
self->line(self, x1, y0, x1, y1 , pstyle);
self->line(self, x0, y1, x1, y1 , pstyle);
self->line(self, x0, y0, x0, y1 , pstyle);
}
if( pstyle->fill_type != PLOT_OP_TYPE_NONE ){
v_bar( self->vdi_handle, (short*)&pxy );
}
return ( 1 );
}
static int polygon(GEM_PLOTTER self,const int *p, unsigned int n, const plot_style_t * pstyle)
{
short pxy[n*2];
unsigned int i=0;
short d[4];
if( vdi_sysinfo.maxpolycoords > 0 )
assert( (signed int)n < vdi_sysinfo.maxpolycoords );
plotter_vdi_clip( self, 1);
vsf_interior( self->vdi_handle, FIS_SOLID );
vsf_style( self->vdi_handle, 1);
for( i = 0; i<n*2; i=i+2 ) {
pxy[i] = (short)CURFB(self).x+p[i];
pxy[i+1] = (short)CURFB(self).y+p[i+1];
}
if( pstyle->fill_type == PLOT_OP_TYPE_SOLID){
vsf_rgbcolor( self->vdi_handle, pstyle->fill_colour);
v_fillarea(self->vdi_handle, n, (short*)&pxy);
} else {
pxy[n*2]=pxy[0];
pxy[n*2+1]=pxy[1];
vsl_rgbcolor( self->vdi_handle, pstyle->stroke_colour);
v_pline(self->vdi_handle, n+1, (short *)&pxy );
}
plotter_vdi_clip( self, 0);
return ( 1 );
}
static int path(GEM_PLOTTER self,const float *p, unsigned int n, int fill, float width,
int c, const float transform[6])
{
LOG(("%s: %s\n", (char*)__FILE__, __FUNCTION__));
return ( 1 );
}
static inline uint32_t ablend(uint32_t pixel, uint32_t scrpixel)
{
int opacity = pixel & 0xFF;
int transp = 0x100 - opacity;
uint32_t rb, g;
pixel >>= 8;
scrpixel >>= 8;
rb = ((pixel & 0xFF00FF) * opacity +
(scrpixel & 0xFF00FF) * transp) >> 8;
g = ((pixel & 0x00FF00) * opacity +
(scrpixel & 0x00FF00) * transp) >> 8;
return ((rb & 0xFF00FF) | (g & 0xFF00)) << 8;
}
static int bitmap_resize( GEM_PLOTTER self, struct bitmap * img, int nw, int nh )
{
HermesFormat fmt;
short bpp = bitmap_get_bpp( img );
int stride = bitmap_get_rowstride( img );
int err;
if( img->resized != NULL ) {
if( img->resized->width != nw || img->resized->height != nh ) {
bitmap_destroy( img->resized );
img->resized = NULL;
} else {
/* the bitmap is already resized */
return( 0 );
}
}
/* allocate the mem for resized bitmap */
img->resized = bitmap_create_ex( nw, nh, bpp, nw*bpp, 0, NULL );
if( img->resized == NULL ) {
printf("W: %d, H: %d, bpp: %d\n", nw, nh, bpp);
assert( img->resized );
return ( -ERR_NO_MEM );
}
/* allocate an converter, only for resizing */
err = Hermes_ConverterRequest( hermes_res_h,
&DUMMY_PRIV(self)->nsfmt,
&DUMMY_PRIV(self)->nsfmt
);
if( err == 0 ) {
return( -ERR_PLOTTER_NOT_AVAILABLE );
}
err = Hermes_ConverterCopy( hermes_res_h,
img->pixdata,
0, /* x src coord of top left in pixel coords */
0, /* y src coord of top left in pixel coords */
bitmap_get_width( img ), bitmap_get_height( img ),
stride, /* stride as bytes */
img->resized->pixdata,
0, /* x dst coord of top left in pixel coords */
0, /* y dst coord of top left in pixel coords */
nw, nh,
bitmap_get_rowstride( img->resized ) /* stride as bytes */
);
if( err == 0 ) {
bitmap_destroy( img->resized );
img->resized = NULL;
return( -2 );
}
return( 0 );
}
static struct bitmap * snapshot_create(GEM_PLOTTER self, int x, int y, int w, int h)
{
MFDB scr;
short pxy[8];
int err;
/* make sure the screen format is pixel packed... */
/* no method to convert planar screen to pixel packed ... right now */
assert( vdi_sysinfo.vdiformat == VDI_FORMAT_PACK );
{
int scr_stride = MFDB_STRIDE( w );
int scr_size = ( ((scr_stride >> 3) * h) * vdi_sysinfo.scr_bpp );
if( DUMMY_PRIV(self)->size_buf_scr == 0 ){
/* init screen mfdb */
DUMMY_PRIV(self)->buf_scr.fd_addr = malloc( scr_size );
DUMMY_PRIV(self)->size_buf_scr = scr_size;
} else {
if( scr_size > DUMMY_PRIV(self)->size_buf_scr ) {
DUMMY_PRIV(self)->buf_scr.fd_addr = realloc(
DUMMY_PRIV(self)->buf_scr.fd_addr, scr_size
);
DUMMY_PRIV(self)->size_buf_scr = scr_size;
}
}
if( DUMMY_PRIV(self)->buf_scr.fd_addr == NULL ) {
DUMMY_PRIV(self)->size_buf_scr = 0;
return( NULL );
}
DUMMY_PRIV(self)->buf_scr.fd_nplanes = vdi_sysinfo.scr_bpp;
DUMMY_PRIV(self)->buf_scr.fd_w = scr_stride;
DUMMY_PRIV(self)->buf_scr.fd_h = h;
DUMMY_PRIV(self)->buf_scr.fd_wdwidth = scr_stride >> 4;
assert( DUMMY_PRIV(self)->buf_scr.fd_addr != NULL );
}
init_mfdb( 0, w, h, 0, &scr );
pxy[0] = x;
pxy[1] = y;
pxy[2] = pxy[0] + w-1;
pxy[3] = pxy[1] + h-1;
pxy[4] = 0;
pxy[5] = 0;
pxy[6] = pxy[2];
pxy[7] = pxy[3];
vro_cpyfm(
self->vdi_handle, S_ONLY, (short*)&pxy,
&scr, &DUMMY_PRIV(self)->buf_scr
);
/* convert screen buffer to ns format: */
if( DUMMY_PRIV(self)->buf_scr_compat == NULL ) {
DUMMY_PRIV(self)->buf_scr_compat = bitmap_create(w, h, 0);
} else {
DUMMY_PRIV(self)->buf_scr_compat = bitmap_realloc( w, h,
DUMMY_PRIV(self)->buf_scr_compat->bpp,
w * DUMMY_PRIV(self)->buf_scr_compat->bpp,
BITMAP_GROW,
DUMMY_PRIV(self)->buf_scr_compat );
}
err = Hermes_ConverterRequest( hermes_cnv_h,
&DUMMY_PRIV(self)->vfmt,
&DUMMY_PRIV(self)->nsfmt
);
assert( err != 0 );
err = Hermes_ConverterCopy( hermes_cnv_h,
DUMMY_PRIV(self)->buf_scr.fd_addr,
0, /* x src coord of top left in pixel coords */
0, /* y src coord of top left in pixel coords */
w, h,
DUMMY_PRIV(self)->buf_scr.fd_w * vdi_sysinfo.pixelsize, /* stride as bytes */
DUMMY_PRIV(self)->buf_scr_compat->pixdata,
0, /* x dst coord of top left in pixel coords */
0, /* y dst coord of top left in pixel coords */
w, h,
bitmap_get_rowstride(DUMMY_PRIV(self)->buf_scr_compat) /* stride as bytes */
);
assert( err != 0 );
return( (struct bitmap * )DUMMY_PRIV(self)->buf_scr_compat );
}
static void snapshot_suspend(GEM_PLOTTER self )
{
if( DUMMY_PRIV(self)->size_buf_scr > CONV_KEEP_LIMIT ) {
DUMMY_PRIV(self)->buf_scr.fd_addr = realloc(
DUMMY_PRIV(self)->buf_scr.fd_addr, CONV_KEEP_LIMIT
);
if( DUMMY_PRIV(self)->buf_scr.fd_addr != NULL ) {
DUMMY_PRIV(self)->size_buf_scr = CONV_KEEP_LIMIT;
} else {
DUMMY_PRIV(self)->size_buf_scr = 0;
}
}
if( bitmap_buffer_size( DUMMY_PRIV(self)->buf_scr_compat ) > CONV_KEEP_LIMIT ) {
int w = 0;
int h = 1;
w = (CONV_KEEP_LIMIT / DUMMY_PRIV(self)->buf_scr_compat->bpp);
assert( CONV_KEEP_LIMIT == w*DUMMY_PRIV(self)->buf_scr_compat->bpp );
DUMMY_PRIV(self)->buf_scr_compat = bitmap_realloc( w, h,
DUMMY_PRIV(self)->buf_scr_compat->bpp,
CONV_KEEP_LIMIT, BITMAP_SHRINK, DUMMY_PRIV(self)->buf_scr_compat
);
}
}
static void snapshot_destroy( GEM_PLOTTER self )
{
if( DUMMY_PRIV(self)->buf_scr.fd_addr ) {
free( DUMMY_PRIV(self)->buf_scr.fd_addr );
DUMMY_PRIV(self)->buf_scr.fd_addr = NULL;
}
if( DUMMY_PRIV(self)->buf_scr_compat ) {
bitmap_destroy( DUMMY_PRIV(self)->buf_scr_compat );
DUMMY_PRIV(self)->buf_scr_compat = NULL;
}
}
/* convert bitmap to the virutal (chunked) framebuffer format */
static int convert_bitmap( GEM_PLOTTER self,
struct bitmap * img,
int x,
int y,
GRECT * clip,
uint32_t bg,
uint32_t flags,
MFDB *out )
{
int dststride; /* stride of dest. image */
int dstsize; /* size of dest. in byte */
int err;
int bw;
struct bitmap * scrbuf = NULL;
struct bitmap * bm;
assert( clip->g_h > 0 );
assert( clip->g_w > 0 );
bm = img;
bw = bitmap_get_width( img );
/* rem. if eddi xy is installed, we could directly access the screen! */
/* apply transparency to the image: */
if( (img->opaque == false)
&& ( (self->flags & PLOT_FLAG_TRANS) != 0)
&& (
(vdi_sysinfo.vdiformat == VDI_FORMAT_PACK )
||
( (flags & BITMAP_MONOGLYPH) != 0)
) ) {
uint32_t * imgpixel;
uint32_t * screenpixel;
int img_x, img_y; /* points into old bitmap */
int screen_x, screen_y; /* pointers into new bitmap */
/* copy the screen to an temp buffer: */
scrbuf = snapshot_create(self, x, y, clip->g_w, clip->g_h );
if( scrbuf != NULL ) {
/* copy blended pixels the new buffer (which contains screen content): */
int img_stride = bitmap_get_rowstride(bm);
int screen_stride = bitmap_get_rowstride(scrbuf);
for( img_y = clip->g_y, screen_y = 0; screen_y < clip->g_h; screen_y++, img_y++) {
imgpixel = (uint32_t *)(bm->pixdata + (img_stride * img_y));
screenpixel = (uint32_t *)(scrbuf->pixdata + (screen_stride * screen_y));
for( img_x = clip->g_x, screen_x = 0; screen_x < clip->g_w; screen_x++, img_x++ ) {
if( (imgpixel[img_x] & 0xFF) == 0xFF ) {
screenpixel[screen_x] = imgpixel[img_x];
} else {
if( (imgpixel[img_x] & 0x0FF) != 0 ) {
screenpixel[screen_x] = ablend( imgpixel[img_x], screenpixel[screen_x]);
}
}
}
}
clip->g_x = 0;
clip->g_y = 0;
bm = scrbuf;
}
}
/* (re)allocate buffer for framebuffer image: */
dststride = MFDB_STRIDE( clip->g_w );
dstsize = ( ((dststride >> 3) * clip->g_h) * self->bpp_virt);
if( dstsize > DUMMY_PRIV(self)->size_buf_packed) {
int blocks = (dstsize / (CONV_BLOCK_SIZE-1))+1;
if( DUMMY_PRIV(self)->buf_packed == NULL )
DUMMY_PRIV(self)->buf_packed =(void*)malloc( blocks * CONV_BLOCK_SIZE );
else
DUMMY_PRIV(self)->buf_packed =(void*)realloc(
DUMMY_PRIV(self)->buf_packed,
blocks * CONV_BLOCK_SIZE
);
assert( DUMMY_PRIV(self)->buf_packed );
if( DUMMY_PRIV(self)->buf_packed == NULL ) {
if( scrbuf != NULL )
bitmap_destroy( scrbuf );
return( 0-ERR_NO_MEM );
}
DUMMY_PRIV(self)->size_buf_packed = blocks * CONV_BLOCK_SIZE;
}
out->fd_addr = DUMMY_PRIV(self)->buf_packed;
out->fd_w = dststride;
out->fd_h = clip->g_h;
out->fd_wdwidth = dststride >> 4;
out->fd_stand = 0;
out->fd_nplanes = (short)self->bpp_virt;
out->fd_r1 = out->fd_r2 = out->fd_r3 = 0;
err = Hermes_ConverterRequest(
hermes_cnv_h,
&DUMMY_PRIV(self)->nsfmt,
&DUMMY_PRIV(self)->vfmt
);
assert( err != 0 );
/* convert image to virtual format: */
err = Hermes_ConverterCopy( hermes_cnv_h,
bm->pixdata,
clip->g_x, /* x src coord of top left in pixel coords */
clip->g_y, /* y src coord of top left in pixel coords */
clip->g_w, clip->g_h,
bm->rowstride, /* stride as bytes */
out->fd_addr,
0, /* x dst coord of top left in pixel coords */
0, /* y dst coord of top left in pixel coords */
clip->g_w, clip->g_h,
(dststride >> 3) * self->bpp_virt /* stride as bytes */
);
assert( err != 0 );
return( 0 );
}
static void convert_bitmap_done( GEM_PLOTTER self )
{
if( DUMMY_PRIV(self)->size_buf_packed > CONV_KEEP_LIMIT ) {
/* free the mem if it was an large allocation ... */
DUMMY_PRIV(self)->buf_packed = realloc( DUMMY_PRIV(self)->buf_packed, CONV_KEEP_LIMIT );
DUMMY_PRIV(self)->size_buf_packed = CONV_KEEP_LIMIT;
}
snapshot_suspend( self );
}
static int bitmap( GEM_PLOTTER self, struct bitmap * bmp, int x, int y,
unsigned long bg, unsigned long flags )
{
MFDB src_mf;
MFDB scrmf;
short pxy[8];
GRECT off, clip, loc, vis;
src_mf.fd_addr = NULL;
scrmf.fd_addr = NULL;
off.g_x = x;
off.g_y = y;
off.g_h = bmp->height;
off.g_w = bmp->width;
clip.g_x = self->clipping.x0;
clip.g_y = self->clipping.y0;
clip.g_w = self->clipping.x1 - self->clipping.x0;
clip.g_h = self->clipping.y1 - self->clipping.y0;
if( !rc_intersect( &clip, &off) ) {
return( true );
}
plotter_get_visible_grect( self, &vis );
if( !rc_intersect( &vis, &off) ) {
return( true );
}
loc = off;
off.g_x = MAX(0, off.g_x - x);
off.g_y = MAX(0, off.g_y - y);
loc.g_x = MAX(0, loc.g_x);
loc.g_y = MAX(0, loc.g_y);
pxy[0] = 0;
pxy[1] = 0;
pxy[2] = off.g_w-1;
pxy[3] = off.g_h-1;
pxy[4] = CURFB(self).x + loc.g_x;
pxy[5] = CURFB(self).y + loc.g_y;
pxy[6] = CURFB(self).x + loc.g_x + off.g_w-1;
pxy[7] = CURFB(self).y + loc.g_y + off.g_h-1;
if( convert_bitmap( self, bmp, pxy[4], pxy[5], &off, bg, flags, &src_mf) != 0 ) {
return( true );
}
vro_cpyfm( self->vdi_handle, S_ONLY, (short*)&pxy, &src_mf, &scrmf);
convert_bitmap_done( self );
return( true );
}
static int plot_mfdb (GEM_PLOTTER self, GRECT * loc, MFDB * insrc, uint32_t flags)
{
MFDB screen, tran;
MFDB * src;
short pxy[8];
short pxyclip[4];
short c[2] = {OFFSET_CUSTOM_COLOR, WHITE};
GRECT off;
plotter_get_clip_grect( self, &off );
if( rc_intersect(loc, &off) == 0 ){
return( 1 );
}
init_mfdb( 0, loc->g_w, loc->g_h, 0, &screen );
if( insrc->fd_stand ){
int size = init_mfdb( insrc->fd_nplanes, loc->g_w, loc->g_h,
MFDB_FLAG_NOALLOC,
&tran
);
if( DUMMY_PRIV(self)->size_buf_scr == 0 ){
DUMMY_PRIV(self)->buf_scr.fd_addr = malloc( size );
DUMMY_PRIV(self)->size_buf_scr = size;
} else {
if( size > DUMMY_PRIV(self)->size_buf_scr ) {
DUMMY_PRIV(self)->buf_scr.fd_addr = realloc(
DUMMY_PRIV(self)->buf_scr.fd_addr, size
);
DUMMY_PRIV(self)->size_buf_scr = size;
}
}
tran.fd_addr = DUMMY_PRIV(self)->buf_scr.fd_addr;
vr_trnfm( self->vdi_handle, insrc, &tran );
src = &tran;
} else {
src = insrc;
}
pxy[0] = off.g_x - loc->g_x;
pxy[1] = off.g_y - loc->g_y;
pxy[2] = pxy[0] + off.g_w - 1;
pxy[3] = pxy[1] + off.g_h - 1;
pxy[4] = CURFB(self).x + off.g_x;
pxy[5] = CURFB(self).y + off.g_y;
pxy[6] = pxy[4] + off.g_w-1;
pxy[7] = pxy[5] + off.g_h-1;
if( flags & PLOT_FLAG_TRANS && src->fd_nplanes == 1){
vrt_cpyfm( self->vdi_handle, MD_TRANS, (short*)pxy, src, &screen, (short*)&c );
} else {
/* this method only plots transparent bitmaps, right now... */
}
/* TODO: shrink conversion buffer?
no, it requires time.
if( insrc->fd_stand ){
}
*/
return( 1 );
}
static int text(GEM_PLOTTER self, int x, int y, const char *text, size_t length, const plot_font_style_t *fstyle)
{
self->font_plotter->text( self->font_plotter, x, y,
text, length, fstyle
);
return ( 1 );
}