emf-print.cpp revision aefaed7646cce60b4b2d4b2f7411234949539482
/** @file
* @brief Enhanced Metafile printing
*/
/* Authors:
* Ulf Erikson <ulferikson@users.sf.net>
* Jon A. Cruz <jon@joncruz.org>
* Abhishek Sharma
* David Mathog
*
* Copyright (C) 2006-2009 Authors
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
/*
* References:
* - How to Create & Play Enhanced Metafiles in Win32
* http://support.microsoft.com/kb/q145999/
* - INFO: Windows Metafile Functions & Aldus Placeable Metafiles
* http://support.microsoft.com/kb/q66949/
* - Metafile Functions
* http://msdn.microsoft.com/library/en-us/gdi/metafile_0whf.asp
* - Metafile Structures
* http://msdn.microsoft.com/library/en-us/gdi/metafile_5hkj.asp
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "2geom/sbasis-to-bezier.h"
#include "2geom/svg-elliptical-arc.h"
#include "2geom/path.h"
#include "2geom/pathvector.h"
#include "2geom/rect.h"
#include "2geom/bezier-curve.h"
#include "2geom/hvlinesegment.h"
#include "helper/geom.h"
#include "helper/geom-curves.h"
#include "sp-item.h"
#include "util/units.h"
#include "style.h"
#include "inkscape-version.h"
#include "sp-root.h"
#include "extension/system.h"
#include "extension/print.h"
#include "document.h"
#include "path-prefix.h"
#include "sp-pattern.h"
#include "sp-image.h"
#include "sp-gradient.h"
#include "sp-radial-gradient.h"
#include "sp-linear-gradient.h"
#include "splivarot.h" // pieces for union on shapes
#include "2geom/svg-path-parser.h" // to get from SVG text to Geom::Path
#include "display/canvas-bpath.h" // for SPWindRule
#include "emf-print.h"
#include <string.h>
extern "C" {
#include "libunicode-convert/unicode-convert.h"
}
namespace Inkscape {
namespace Extension {
namespace Internal {
#define PXPERMETER 2835
enum drawmode {DRAW_PAINT, DRAW_PATTERN, DRAW_IMAGE, DRAW_LINEAR_GRADIENT, DRAW_RADIAL_GRADIENT};
struct FFNEXUS {
char *fontname; //Font name
FFNEXUS *next; //link to next nexus, NULL if this is the last
double f1; //Vertical (rotating) offset factor (* font height)
double f2; //Vertical (nonrotating) offset factor (* font height)
double f3; //Horizontal (nonrotating) offset factor (* font height)
};
struct GRADVALUES{
Geom::Point p1; // center or start
Geom::Point p2; // xhandle or end
Geom::Point p3; // yhandle or unused
double r; // radius or unused
void *grad; // to access the stops information
int mode; // DRAW_LINEAR_GRADIENT or DRAW_RADIAL_GRADIENT, if GRADVALUES is valid, else any value
U_COLORREF bgc; // document background color, this is as good a place as any to keep it
float rgb[3]; // also background color, but as 0-1 float.
};
/* globals */
static double PX2WORLD = 20.0f;
static U_XFORM worldTransform;
static bool FixPPTCharPos, FixPPTDashLine, FixPPTGrad2Polys, FixPPTPatternAsHatch, FixImageRot;
static FFNEXUS *emf_short_fflist = NULL; //only those fonts so far encountered. This is SHARED with wmf-print.cpp
static FFNEXUS *emf_long_fflist = NULL; //all the fonts described in ...\share\extensions\fontfix.conf
static EMFTRACK *et = NULL;
static EMFHANDLES *eht = NULL;
static GRADVALUES gv;
void PrintEmf::read_system_fflist(void){ //this is not called by any other source files
FFNEXUS *temp=NULL;
FFNEXUS *ptr=NULL;
std::fstream fffile;
std::string instr;
char fontname[128];
double f1,f2,f3;
std::string path_to_ffconf;
if(emf_long_fflist)return;
char *oldlocale = g_strdup(setlocale(LC_NUMERIC, NULL));
setlocale(LC_NUMERIC, "C");
path_to_ffconf=INKSCAPE_EXTENSIONDIR;
#ifdef WIN32
path_to_ffconf.append("\\fontfix.conf"); //Windows path syntax
#else
path_to_ffconf.append("/fontfix.conf"); //Unix/linx path syntax
#endif
//open the input
fffile.open(path_to_ffconf.c_str(), std::ios::in);
if(!fffile.is_open()){
g_error("Unable to open file: %s\n", path_to_ffconf.c_str());
}
while (std::getline(fffile,instr)){
if(instr[0]=='#')continue;
// not a comment, get the 4 values from the line
int elements=sscanf(instr.c_str(),"%lf %lf %lf %127[^\n]",&f1,&f2,&f3, &fontname[0]);
if(elements!=4){
g_error("Expected \"f1 f2 f3 Fontname\" but did not find it in file: %s\n", path_to_ffconf.c_str());
}
temp=(FFNEXUS *) calloc(1,sizeof(FFNEXUS)); //This will never be freed
temp->f1=f1;
temp->f2=f2;
temp->f3=f3;
temp->fontname=strdup(fontname); //This will never be freed
temp->next=NULL; //just to be explicit, it is already 0
if(ptr){
ptr->next=temp;
ptr=temp;
}
else {
emf_long_fflist=ptr=temp;
}
}
fffile.close();
setlocale(LC_NUMERIC, oldlocale);
g_free(oldlocale);
}
/* Looks for the fontname in the long list. If it does not find it, it adds the default values
to the short list with this fontname. If it does find it, then it adds the specified values.
*/
void PrintEmf::search_long_fflist(const char *fontname, double *f1, double *f2, double *f3){ //this is not called by any other source files
FFNEXUS *ptr=NULL;
FFNEXUS *tmp=emf_long_fflist;
if(!emf_long_fflist){
g_error("Programming error search_long_fflist called before read_system_fflist\n");
}
ptr=emf_long_fflist;
while(ptr){
if(!strcmp(ptr->fontname,fontname)){ tmp=ptr; break; }
ptr=ptr->next;
}
//tmp points at either the found name, or the default, the first entry in long_fflist
if(!emf_short_fflist){
ptr=emf_short_fflist=(FFNEXUS *) malloc(sizeof(FFNEXUS));
}
else {
ptr=emf_short_fflist;
while(ptr->next){ ptr=ptr->next; }
ptr->next=(FFNEXUS *) malloc(sizeof(FFNEXUS));
ptr=ptr->next;
}
ptr->fontname=strdup(tmp->fontname);
*f1 = ptr->f1 = tmp->f1;
*f2 = ptr->f2 = tmp->f2;
*f3 = ptr->f3 = tmp->f3;
ptr->next=NULL;
}
/* Looks for the fontname in the short list. If it does not find it, it looks in the long_fflist.
Either way it returns the f1, f2, f3 parameters for the font, even if these are for the default.
*/
void PrintEmf::search_short_fflist(const char *fontname, double *f1, double *f2, double *f3){ //this is not called by any other source files
FFNEXUS *ptr=NULL;
static FFNEXUS *last=NULL;
if(!emf_long_fflist){
g_error("Programming error search_short_fflist called before read_system_fflist\n");
}
// This speeds things up a lot - if the same font is called twice in a row, pull it out immediately
if(last && !strcmp(last->fontname,fontname)){ ptr=last; }
else { ptr=emf_short_fflist; } // short_fflist may still be NULL
while(ptr){
if(!strcmp(ptr->fontname,fontname)){ *f1=ptr->f1; *f2=ptr->f2; *f3=ptr->f3; last=ptr; return; }
ptr=ptr->next;
}
//reach this point only if there is no match
search_long_fflist(fontname, f1, f2, f3);
}
void PrintEmf::smuggle_adxkyrtl_out(const char *string, uint32_t **adx, double *ky, int *rtl, int *ndx, float scale){
float fdx;
int i;
uint32_t *ladx;
const char *cptr=&string[strlen(string)+1]; // this works because of the first fake terminator
*adx = NULL;
*ky = 0.0; // set a default value
sscanf(cptr,"%7d",ndx);
if(!*ndx)return; // this could happen with an empty string
cptr += 7;
ladx = (uint32_t *) malloc(*ndx * sizeof(uint32_t) );
if(!ladx)g_message("Out of memory");
*adx=ladx;
for(i=0; i<*ndx; i++,cptr+=7, ladx++){
sscanf(cptr,"%7f",&fdx);
*ladx=(uint32_t) round(fdx * scale);
}
cptr++; // skip 2nd fake terminator
sscanf(cptr,"%7f",&fdx);
*ky=fdx;
cptr += 7; // advance over ky and its space
sscanf(cptr,"%07d",rtl);
}
/* convert an 0RGB color to EMF U_COLORREF.
inverse of sethexcolor() in emf-inout.cpp
*/
U_COLORREF PrintEmf::gethexcolor(uint32_t color){
U_COLORREF out;
out = U_RGB(
(color >> 16) & 0xFF,
(color >> 8) & 0xFF,
(color >> 0) & 0xFF
);
return(out);
}
/* Translate inkscape weights to EMF weights.
*/
uint32_t PrintEmf::transweight(const unsigned int inkweight){
if(inkweight == SP_CSS_FONT_WEIGHT_400)return(U_FW_NORMAL);
if(inkweight == SP_CSS_FONT_WEIGHT_100)return(U_FW_THIN);
if(inkweight == SP_CSS_FONT_WEIGHT_200)return(U_FW_EXTRALIGHT);
if(inkweight == SP_CSS_FONT_WEIGHT_300)return(U_FW_LIGHT);
// 400 is tested first, as it is the most common case
if(inkweight == SP_CSS_FONT_WEIGHT_500)return(U_FW_MEDIUM);
if(inkweight == SP_CSS_FONT_WEIGHT_600)return(U_FW_SEMIBOLD);
if(inkweight == SP_CSS_FONT_WEIGHT_700)return(U_FW_BOLD);
if(inkweight == SP_CSS_FONT_WEIGHT_800)return(U_FW_EXTRABOLD);
if(inkweight == SP_CSS_FONT_WEIGHT_900)return(U_FW_HEAVY);
return(U_FW_NORMAL);
}
PrintEmf::PrintEmf (void)
{
// all of the class variables are initialized elsewhere, many in PrintEmf::Begin,
}
PrintEmf::~PrintEmf (void)
{
/* restore default signal handling for SIGPIPE */
#if !defined(_WIN32) && !defined(__WIN32__)
(void) signal(SIGPIPE, SIG_DFL);
#endif
return;
}
unsigned int PrintEmf::setup (Inkscape::Extension::Print * /*mod*/)
{
return TRUE;
}
unsigned int PrintEmf::begin (Inkscape::Extension::Print *mod, SPDocument *doc)
{
U_SIZEL szlDev, szlMm;
U_RECTL rclBounds, rclFrame;
char *rec;
gchar const *utf8_fn = mod->get_param_string("destination");
FixPPTCharPos = mod->get_param_bool("FixPPTCharPos");
FixPPTDashLine = mod->get_param_bool("FixPPTDashLine");
FixPPTGrad2Polys = mod->get_param_bool("FixPPTGrad2Polys");
FixPPTPatternAsHatch = mod->get_param_bool("FixPPTPatternAsHatch");
FixImageRot = mod->get_param_bool("FixImageRot");
(void) emf_start(utf8_fn, 1000000, 250000, &et); // Initialize the et structure
(void) htable_create(128, 128, &eht); // Initialize the eht structure
char *ansi_uri = (char *) utf8_fn;
// width and height in px
_width = doc->getWidth();
_height = doc->getHeight();
// initialize a few global variables
hbrush = hbrushOld = hpen = 0;
htextalignment = U_TA_BASELINE | U_TA_LEFT;
use_stroke = use_fill = simple_shape = usebk = false;
Inkscape::XML::Node *nv = sp_repr_lookup_name (doc->rroot, "sodipodi:namedview");
if(nv){
const char *p1 = nv->attribute("pagecolor");
char *p2;
uint32_t lc = strtoul( &p1[1], &p2, 16 ); // it looks like "#ABC123"
if(*p2)lc=0;
gv.bgc = gethexcolor(lc);
gv.rgb[0] = (float) U_RGBAGetR(gv.bgc)/255.0;
gv.rgb[1] = (float) U_RGBAGetG(gv.bgc)/255.0;
gv.rgb[2] = (float) U_RGBAGetB(gv.bgc)/255.0;
}
bool pageBoundingBox;
pageBoundingBox = mod->get_param_bool("pageBoundingBox");
Geom::Rect d;
if (pageBoundingBox) {
d = Geom::Rect::from_xywh(0, 0, _width, _height);
} else {
SPItem* doc_item = doc->getRoot();
Geom::OptRect bbox = doc_item->desktopVisualBounds();
if (bbox) d = *bbox;
}
d *= Geom::Scale(Inkscape::Util::Quantity::convert(1, "px", "in"));
float dwInchesX = d.width();
float dwInchesY = d.height();
// dwInchesX x dwInchesY in micrometer units, dpi=90 -> 3543.3 dpm
(void) drawing_size((int) ceil(dwInchesX*25.4), (int) ceil(dwInchesY*25.4), 3.543307, &rclBounds, &rclFrame);
// set up the reference device as 100 X A4 horizontal, (1200 dpi/25.4 -> dpmm). Extra digits maintain dpi better in EMF
int MMX = 21600;
int MMY = 27900;
(void) device_size(MMX, MMY, 1200.0/25.4, &szlDev, &szlMm);
int PixelsX = szlDev.cx;
int PixelsY = szlDev.cy;
// set up the description: (version string)0(file)00
char buff[1024];
memset(buff,0, sizeof(buff));
char *p1 = strrchr(ansi_uri, '\\');
char *p2 = strrchr(ansi_uri, '/');
char *p = MAX(p1, p2);
if (p)
p++;
else
p = ansi_uri;
snprintf(buff, sizeof(buff)-1, "Inkscape %s (%s)\1%s\1", Inkscape::version_string, __DATE__,p);
uint16_t *Description = U_Utf8ToUtf16le(buff, 0, NULL);
int cbDesc = 2 + wchar16len(Description); // also count the final terminator
(void) U_Utf16leEdit(Description, '\1', '\0'); // swap the temporary \1 characters for nulls
// construct the EMRHEADER record and append it to the EMF in memory
rec = U_EMRHEADER_set( rclBounds, rclFrame, NULL, cbDesc, Description, szlDev, szlMm, 0);
free(Description);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at EMRHEADER");
}
// Simplest mapping mode, supply all coordinates in pixels
rec = U_EMRSETMAPMODE_set(U_MM_TEXT);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at EMRSETMAPMODE");
}
// Correct for dpi in EMF (1200) vs dpi in Inkscape (always 90).
// Also correct for the scaling in PX2WORLD, which is set to 20.
worldTransform.eM11 = 1200./(90.0*PX2WORLD);
worldTransform.eM12 = 0.0;
worldTransform.eM21 = 0.0;
worldTransform.eM22 = 1200./(90.0*PX2WORLD);
worldTransform.eDx = 0;
worldTransform.eDy = 0;
rec = U_EMRMODIFYWORLDTRANSFORM_set(worldTransform, U_MWT_LEFTMULTIPLY);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at EMRMODIFYWORLDTRANSFORM");
}
if (1) {
snprintf(buff, sizeof(buff)-1, "Screen=%dx%dpx, %dx%dmm", PixelsX, PixelsY, MMX, MMY);
rec = textcomment_set(buff);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at textcomment_set 1");
}
snprintf(buff, sizeof(buff)-1, "Drawing=%.1lfx%.1lfpx, %.1lfx%.1lfmm", _width, _height, dwInchesX * Inkscape::Util::Quantity::convert(1, "in", "mm"), dwInchesY * Inkscape::Util::Quantity::convert(1, "in", "mm"));
rec = textcomment_set(buff);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at textcomment_set 1");
}
}
/* set some parameters, else the program that reads the EMF may default to other values */
rec = U_EMRSETBKMODE_set(U_TRANSPARENT);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at U_EMRSETBKMODE_set");
}
hpolyfillmode=U_WINDING;
rec = U_EMRSETPOLYFILLMODE_set(U_WINDING);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at U_EMRSETPOLYFILLMODE_set");
}
// Text alignment: (only changed if RTL text is encountered )
// - (x,y) coordinates received by this filter are those of the point where the text
// actually starts, and already takes into account the text object's alignment;
// - for this reason, the EMF text alignment must always be TA_BASELINE|TA_LEFT.
htextalignment = U_TA_BASELINE | U_TA_LEFT;
rec = U_EMRSETTEXTALIGN_set(U_TA_BASELINE | U_TA_LEFT);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at U_EMRSETTEXTALIGN_set");
}
htextcolor_rgb[0] = htextcolor_rgb[1] = htextcolor_rgb[2] = 0.0;
rec = U_EMRSETTEXTCOLOR_set(U_RGB(0,0,0));
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at U_EMRSETTEXTCOLOR_set");
}
rec = U_EMRSETROP2_set(U_R2_COPYPEN);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::begin at U_EMRSETROP2_set");
}
/* miterlimit is set with eah pen, so no need to check for it changes as in WMF */
return 0;
}
unsigned int PrintEmf::finish (Inkscape::Extension::Print * /*mod*/)
{
char *rec;
if (!et) return 0;
// earlier versions had flush of fill here, but it never executed and was removed
rec = U_EMREOF_set(0,NULL,et); // generate the EOF record
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::finish");
}
(void) emf_finish(et, eht); // Finalize and write out the EMF
emf_free(&et); // clean up
htable_free(&eht); // clean up
return 0;
}
unsigned int PrintEmf::comment (
Inkscape::Extension::Print * /*module*/,
const char * /*comment*/)
{
if (!et) return 0;
// earlier versions had flush of fill here, but it never executed and was removed
return 0;
}
// Extract hatchType, hatchColor from a name like
// EMFhatch<hatchType>_<hatchColor>
// Where the first one is a number and the second a color in hex.
// hatchType and hatchColor have been set with defaults before this is called.
//
void PrintEmf::hatch_classify(char *name, int *hatchType, U_COLORREF *hatchColor, U_COLORREF *bkColor){
int val;
uint32_t hcolor=0;
uint32_t bcolor=0;
// name should be EMFhatch or WMFhatch but *MFhatch will be accepted
if(0!=strncmp(&name[1],"MFhatch",7)){ return; } // not anything we can parse
name += 8; // EMFhatch already detected
val = 0;
while(*name && isdigit(*name)){
val = 10*val + *name - '0';
name++;
}
*hatchType = val;
if(*name != '_' || val > U_HS_DITHEREDBKCLR){ // wrong syntax, cannot classify
*hatchType = -1;
}
else {
name++;
if(2 != sscanf(name,"%X_%X", &hcolor, &bcolor)){ // not a pattern with background
if(1 != sscanf(name,"%X", &hcolor)){ *hatchType = -1; } // not a pattern, cannot classify
*hatchColor = gethexcolor(hcolor);
}
else {
*hatchColor = gethexcolor(hcolor);
*bkColor = gethexcolor(bcolor);
usebk = true;
}
}
/* Everything > U_HS_SOLIDCLR is solid, just specify the color in the brush rather than messing around with background or textcolor */
if(*hatchType > U_HS_SOLIDCLR)*hatchType = U_HS_SOLIDCLR;
}
//
// Recurse down from a brush pattern, try to figure out what it is.
// If an image is found set a pointer to the epixbuf, else set that to NULL
// If a pattern is found with a name like [EW]MFhatch3_3F7FFF return hatchType=3, hatchColor=3F7FFF (as a uint32_t),
// otherwise hatchType is set to -1 and hatchColor is not defined.
//
void PrintEmf::brush_classify(SPObject *parent, int depth, GdkPixbuf **epixbuf, int *hatchType, U_COLORREF *hatchColor, U_COLORREF *bkColor){
if(depth==0){
*epixbuf = NULL;
*hatchType = -1;
*hatchColor = U_RGB(0,0,0);
*bkColor = U_RGB(255,255,255);
}
depth++;
// first look along the pattern chain, if there is one
if(SP_IS_PATTERN(parent)){
for (SPPattern *pat_i = SP_PATTERN(parent); pat_i != NULL; pat_i = pat_i->ref ? pat_i->ref->getObject() : NULL) {
if(SP_IS_IMAGE(pat_i)){
*epixbuf = ((SPImage *)pat_i)->pixbuf;
return;
}
char temp[32]; // large enough
temp[31]='\0';
strncpy(temp,pat_i->getAttribute("id"),31); // Some names may be longer than [EW]MFhatch#_######
hatch_classify(temp, hatchType, hatchColor, bkColor);
if(*hatchType != -1)return;
// still looking? Look at this pattern's children, if there are any
SPObject *child = pat_i->firstChild();
while(child && !(*epixbuf) && (*hatchType == -1)){
brush_classify(child, depth, epixbuf, hatchType, hatchColor, bkColor);
child = child->getNext();
}
}
}
else if(SP_IS_IMAGE(parent)){
*epixbuf = ((SPImage *)parent)->pixbuf;
return;
}
else { // some inkscape rearrangements pass through nodes between pattern and image which are not classified as either.
SPObject *child = parent->firstChild();
while(child && !(*epixbuf) && (*hatchType == -1)){
brush_classify(child, depth, epixbuf, hatchType, hatchColor, bkColor);
child = child->getNext();
}
}
}
//swap R/B in 4 byte pixel
void PrintEmf::swapRBinRGBA(char *px, int pixels){
char tmp;
for(int i=0;i<pixels*4;px+=4,i+=4){
tmp=px[2];
px[2]=px[0];
px[0]=tmp;
}
}
/* opacity weighting of two colors as float. v1 is the color, op is its opacity, v2 is the background color */
inline float opweight(float v1, float v2, float op){
return v1*op + v2*(1.0-op);
}
U_COLORREF PrintEmf::avg_stop_color(SPGradient *gr){
U_COLORREF cr;
int last = gr->vector.stops.size() -1;
if(last>=1){
float rgbs[3];
float rgbe[3];
float ops,ope;
ops = gr->vector.stops[0 ].opacity;
ope = gr->vector.stops[last].opacity;
sp_color_get_rgb_floatv(&gr->vector.stops[0 ].color, rgbs);
sp_color_get_rgb_floatv(&gr->vector.stops[last].color, rgbe);
/* Replace opacity at start & stop with that fraction background color, then average those two for final color. */
cr = U_RGB(
255*(( opweight(rgbs[0],gv.rgb[0],ops) + opweight(rgbe[0],gv.rgb[0],ope) )/2.0),
255*(( opweight(rgbs[1],gv.rgb[1],ops) + opweight(rgbe[1],gv.rgb[1],ope) )/2.0),
255*(( opweight(rgbs[2],gv.rgb[2],ops) + opweight(rgbe[2],gv.rgb[2],ope) )/2.0)
);
}
else {
cr = U_RGB(0, 0, 0); // The default fill
}
return cr;
}
int PrintEmf::hold_gradient(void *gr, int mode){
gv.mode = mode;
gv.grad = gr;
if(mode==DRAW_RADIAL_GRADIENT){
SPRadialGradient *rg = (SPRadialGradient *) gr;
gv.r = rg->r.computed; // radius, but of what???
gv.p1 = Geom::Point(rg->cx.computed, rg->cy.computed); // center
gv.p2 = Geom::Point(gv.r, 0) + gv.p1; // xhandle
gv.p3 = Geom::Point(0, -gv.r) + gv.p1; // yhandle
if (rg->gradientTransform_set) {
gv.p1 = gv.p1 * rg->gradientTransform;
gv.p2 = gv.p2 * rg->gradientTransform;
gv.p3 = gv.p3 * rg->gradientTransform;
}
}
else if(mode==DRAW_LINEAR_GRADIENT){
SPLinearGradient *lg = (SPLinearGradient *) gr;
gv.r = 0; // unused
gv.p1 = Geom::Point (lg->x1.computed, lg->y1.computed); // start
gv.p2 = Geom::Point (lg->x2.computed, lg->y2.computed); // end
gv.p3 = Geom::Point (0, 0); // unused
if (lg->gradientTransform_set) {
gv.p1 = gv.p1 * lg->gradientTransform;
gv.p2 = gv.p2 * lg->gradientTransform;
}
}
else {
g_error("Fatal programming error, hold_gradient() in emf-print.cpp called with invalid draw mode");
}
return 1;
}
// fcolor is defined when gradients are being expanded, it is the color of one stripe or ring.
int PrintEmf::create_brush(SPStyle const *style, PU_COLORREF fcolor)
{
float rgb[3];
char *rec;
U_LOGBRUSH lb;
uint32_t brush, fmode;
enum drawmode fill_mode;
GdkPixbuf *pixbuf;
uint32_t brushStyle;
int hatchType;
U_COLORREF hatchColor;
U_COLORREF bkColor;
uint32_t width = 0; // quiets a harmless compiler warning, initialization not otherwise required.
uint32_t height = 0;
if (!et) return 0;
// set a default fill in case we can't figure out a better way to do it
fmode = U_ALTERNATE;
fill_mode = DRAW_PAINT;
brushStyle = U_BS_SOLID;
hatchType = U_HS_SOLIDCLR;
bkColor = U_RGB(0, 0, 0);
if(fcolor){ hatchColor = *fcolor; }
else { hatchColor = U_RGB(0, 0, 0); }
if (!fcolor && style) {
if(style->fill.isColor()){
fill_mode = DRAW_PAINT;
float opacity = SP_SCALE24_TO_FLOAT(style->fill_opacity.value);
if (opacity <= 0.0)opacity = 0.0; // basically the same as no fill
sp_color_get_rgb_floatv( &style->fill.value.color, rgb );
hatchColor = U_RGB(255*rgb[0], 255*rgb[1], 255*rgb[2]);
fmode = style->fill_rule.computed == 0 ? U_WINDING : (style->fill_rule.computed == 2 ? U_ALTERNATE : U_ALTERNATE);
}
else if(SP_IS_PATTERN(SP_STYLE_FILL_SERVER(style))){ // must be paint-server
SPPaintServer *paintserver = style->fill.value.href->getObject();
SPPattern *pat = SP_PATTERN (paintserver);
double dwidth = pattern_width(pat);
double dheight = pattern_height(pat);
width = dwidth;
height = dheight;
brush_classify(pat,0,&pixbuf,&hatchType,&hatchColor,&bkColor);
if(pixbuf){ fill_mode = DRAW_IMAGE; }
else { // pattern
fill_mode = DRAW_PATTERN;
if(hatchType == -1){ // Not a standard hatch, so force it to something
hatchType = U_HS_CROSS;
hatchColor = U_RGB(0xFF,0xC3,0xC3);
}
}
if(FixPPTPatternAsHatch){
if(hatchType == -1){ // image or unclassified
fill_mode = DRAW_PATTERN;
hatchType = U_HS_DIAGCROSS;
hatchColor = U_RGB(0xFF,0xC3,0xC3);
}
}
brushStyle = U_BS_HATCHED;
}
else if(SP_IS_GRADIENT(SP_STYLE_FILL_SERVER(style))){ // must be a gradient
// currently we do not do anything with gradients, the code below just sets the color to the average of the stops
SPPaintServer *paintserver = style->fill.value.href->getObject();
SPLinearGradient *lg = NULL;
SPRadialGradient *rg = NULL;
if (SP_IS_LINEARGRADIENT (paintserver)) {
lg = SP_LINEARGRADIENT(paintserver);
SP_GRADIENT(lg)->ensureVector(); // when exporting from commandline, vector is not built
fill_mode = DRAW_LINEAR_GRADIENT;
}
else if (SP_IS_RADIALGRADIENT (paintserver)) {
rg = SP_RADIALGRADIENT(paintserver);
SP_GRADIENT(rg)->ensureVector(); // when exporting from commandline, vector is not built
fill_mode = DRAW_RADIAL_GRADIENT;
}
else {
// default fill
}
if(rg){
if(FixPPTGrad2Polys){ return hold_gradient(rg, fill_mode); }
else { hatchColor = avg_stop_color(rg); }
}
else if(lg){
if(FixPPTGrad2Polys){ return hold_gradient(lg, fill_mode); }
else { hatchColor = avg_stop_color(lg); }
}
}
}
else { // if (!style)
// default fill
}
lb = logbrush_set(brushStyle, hatchColor, hatchType);
switch(fill_mode){
case DRAW_LINEAR_GRADIENT: // fill with average color unless gradients are converted to slices
case DRAW_RADIAL_GRADIENT: // ditto
case DRAW_PAINT:
case DRAW_PATTERN:
// SVG text has no background attribute, so OPAQUE mode ALWAYS cancels after the next draw, otherwise it would mess up future text output.
if(usebk){
rec = U_EMRSETBKCOLOR_set(bkColor);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at U_EMRSETBKCOLOR_set");
}
rec = U_EMRSETBKMODE_set(U_OPAQUE);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at U_EMRSETBKMODE_set");
}
}
rec = createbrushindirect_set(&brush, eht, lb);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at createbrushindirect_set");
}
break;
case DRAW_IMAGE:
char *px;
char *rgba_px;
uint32_t cbPx;
uint32_t colortype;
PU_RGBQUAD ct;
int numCt;
U_BITMAPINFOHEADER Bmih;
PU_BITMAPINFO Bmi;
rgba_px = (char *) gdk_pixbuf_get_pixels(pixbuf); // Do NOT free this!!!
colortype = U_BCBM_COLOR32;
(void) RGBA_to_DIB(&px, &cbPx, &ct, &numCt, rgba_px, width, height, width*4, colortype, 0, 1);
// Not sure why the next swap is needed because the preceding does it, and the code is identical
// to that in stretchdibits_set, which does not need this.
swapRBinRGBA(px, width*height);
Bmih = bitmapinfoheader_set(width, height, 1, colortype, U_BI_RGB, 0, PXPERMETER, PXPERMETER, numCt, 0);
Bmi = bitmapinfo_set(Bmih, ct);
rec = createdibpatternbrushpt_set(&brush, eht, U_DIB_RGB_COLORS, Bmi, cbPx, px);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at createdibpatternbrushpt_set");
}
free(px);
free(Bmi); // ct will be NULL because of colortype
break;
}
hbrush = brush; // need this later for destroy_brush
rec = selectobject_set(brush, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at selectobject_set");
}
if(fmode != hpolyfillmode){
hpolyfillmode=fmode;
rec = U_EMRSETPOLYFILLMODE_set(fmode);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_brush at U_EMRSETPOLYdrawmode_set");
}
}
return 0;
}
void PrintEmf::destroy_brush()
{
char *rec;
// before an object may be safely deleted it must no longer be selected
// select in a stock object to deselect this one, the stock object should
// never be used because we always select in a new one before drawing anythingrestore previous brush, necessary??? Would using a default stock object not work?
rec = selectobject_set(U_NULL_BRUSH, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::destroy_brush at selectobject_set");
}
if (hbrush){
rec = deleteobject_set(&hbrush, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::destroy_brush");
}
hbrush = 0;
}
}
int PrintEmf::create_pen(SPStyle const *style, const Geom::Affine &transform)
{
U_EXTLOGPEN *elp;
U_NUM_STYLEENTRY n_dash = 0;
U_STYLEENTRY *dash = NULL;
char *rec = NULL;
int linestyle = U_PS_SOLID;
int linecap = 0;
int linejoin = 0;
uint32_t pen;
uint32_t brushStyle;
GdkPixbuf *pixbuf;
int hatchType;
U_COLORREF hatchColor;
U_COLORREF bkColor;
uint32_t width,height;
char *px=NULL;
char *rgba_px;
uint32_t cbPx=0;
uint32_t colortype;
PU_RGBQUAD ct=NULL;
int numCt=0;
U_BITMAPINFOHEADER Bmih;
PU_BITMAPINFO Bmi=NULL;
if (!et) return 0;
// set a default stroke in case we can't figure out a better way to do it
brushStyle = U_BS_SOLID;
hatchColor = U_RGB(0, 0, 0);
hatchType = U_HS_HORIZONTAL;
bkColor = U_RGB(0, 0, 0);
if (style) {
float rgb[3];
if(SP_IS_PATTERN(SP_STYLE_STROKE_SERVER(style))){ // must be paint-server
SPPaintServer *paintserver = style->stroke.value.href->getObject();
SPPattern *pat = SP_PATTERN (paintserver);
double dwidth = pattern_width(pat);
double dheight = pattern_height(pat);
width = dwidth;
height = dheight;
brush_classify(pat,0,&pixbuf,&hatchType,&hatchColor,&bkColor);
if(pixbuf){
brushStyle = U_BS_DIBPATTERN;
rgba_px = (char *) gdk_pixbuf_get_pixels(pixbuf); // Do NOT free this!!!
colortype = U_BCBM_COLOR32;
(void) RGBA_to_DIB(&px, &cbPx, &ct, &numCt, rgba_px, width, height, width*4, colortype, 0, 1);
// Not sure why the next swap is needed because the preceding does it, and the code is identical
// to that in stretchdibits_set, which does not need this.
swapRBinRGBA(px, width*height);
Bmih = bitmapinfoheader_set(width, height, 1, colortype, U_BI_RGB, 0, PXPERMETER, PXPERMETER, numCt, 0);
Bmi = bitmapinfo_set(Bmih, ct);
}
else { // pattern
brushStyle = U_BS_HATCHED;
if(usebk){ // OPAQUE mode ALWAYS cancels after the next draw, otherwise it would mess up future text output.
rec = U_EMRSETBKCOLOR_set(bkColor);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_pen at U_EMRSETBKCOLOR_set");
}
rec = U_EMRSETBKMODE_set(U_OPAQUE);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_pen at U_EMRSETBKMODE_set");
}
}
if(hatchType == -1){ // Not a standard hatch, so force it to something
hatchType = U_HS_CROSS;
hatchColor = U_RGB(0xFF,0xC3,0xC3);
}
}
if(FixPPTPatternAsHatch){
if(hatchType == -1){ // image or unclassified
brushStyle = U_BS_HATCHED;
hatchType = U_HS_DIAGCROSS;
hatchColor = U_RGB(0xFF,0xC3,0xC3);
}
}
}
else if(SP_IS_GRADIENT(SP_STYLE_STROKE_SERVER(style))){ // must be a gradient
// currently we do not do anything with gradients, the code below has no net effect.
SPPaintServer *paintserver = style->stroke.value.href->getObject();
if (SP_IS_LINEARGRADIENT (paintserver)) {
SPLinearGradient *lg=SP_LINEARGRADIENT(paintserver);
SP_GRADIENT(lg)->ensureVector(); // when exporting from commandline, vector is not built
Geom::Point p1 (lg->x1.computed, lg->y1.computed);
Geom::Point p2 (lg->x2.computed, lg->y2.computed);
if (lg->gradientTransform_set) {
p1 = p1 * lg->gradientTransform;
p2 = p2 * lg->gradientTransform;
}
hatchColor = avg_stop_color(lg);
}
else if (SP_IS_RADIALGRADIENT (paintserver)) {
SPRadialGradient *rg=SP_RADIALGRADIENT(paintserver);
SP_GRADIENT(rg)->ensureVector(); // when exporting from commandline, vector is not built
double r = rg->r.computed;
Geom::Point c (rg->cx.computed, rg->cy.computed);
Geom::Point xhandle_point(r, 0);
Geom::Point yhandle_point(0, -r);
yhandle_point += c;
xhandle_point += c;
if (rg->gradientTransform_set) {
c = c * rg->gradientTransform;
yhandle_point = yhandle_point * rg->gradientTransform;
xhandle_point = xhandle_point * rg->gradientTransform;
}
hatchColor = avg_stop_color(rg);
}
else {
// default fill
}
}
else if(style->stroke.isColor()){ // test last, always seems to be set, even for other types above
sp_color_get_rgb_floatv( &style->stroke.value.color, rgb );
brushStyle = U_BS_SOLID;
hatchColor = U_RGB(255*rgb[0], 255*rgb[1], 255*rgb[2]);
hatchType = U_HS_SOLIDCLR;
}
else {
// default fill
}
using Geom::X;
using Geom::Y;
Geom::Point zero(0, 0);
Geom::Point one(1, 1);
Geom::Point p0(zero * transform);
Geom::Point p1(one * transform);
Geom::Point p(p1 - p0);
double scale = sqrt( (p[X]*p[X]) + (p[Y]*p[Y]) ) / sqrt(2);
if(!style->stroke_width.computed){return 0;} //if width is 0 do not (reset) the pen, it should already be NULL_PEN
uint32_t linewidth = MAX( 1, (uint32_t) round(scale * style->stroke_width.computed * PX2WORLD) );
if ( style->stroke_linecap.computed == 0){ linecap = U_PS_ENDCAP_FLAT; }
else if (style->stroke_linecap.computed == 1){ linecap = U_PS_ENDCAP_ROUND; }
else if (style->stroke_linecap.computed == 2){ linecap = U_PS_ENDCAP_SQUARE; }
if ( style->stroke_linejoin.computed == 0){ linejoin = U_PS_JOIN_MITER; }
else if (style->stroke_linejoin.computed == 1){ linejoin = U_PS_JOIN_ROUND; }
else if (style->stroke_linejoin.computed == 2){ linejoin = U_PS_JOIN_BEVEL; }
if (style->stroke_dash.n_dash &&
style->stroke_dash.dash )
{
if(FixPPTDashLine){ // will break up line into many smaller lines. Override gradient if that was set, cannot do both.
brushStyle = U_BS_SOLID;
hatchType = U_HS_HORIZONTAL;
}
else {
int i = 0;
while ( (linestyle != U_PS_USERSTYLE) && (i < style->stroke_dash.n_dash) ){
if (style->stroke_dash.dash[i] > 0.00000001){ linestyle = U_PS_USERSTYLE; }
i++;
}
if (linestyle == U_PS_USERSTYLE) {
n_dash = style->stroke_dash.n_dash;
dash = new uint32_t[n_dash];
for (i = 0; i < style->stroke_dash.n_dash; i++) {
dash[i] = (uint32_t) (style->stroke_dash.dash[i]);
}
}
}
}
elp = extlogpen_set(
U_PS_GEOMETRIC | linestyle | linecap | linejoin,
linewidth,
brushStyle,
hatchColor,
hatchType,
n_dash,
dash);
}
else { // if (!style)
linejoin=0;
elp = extlogpen_set(
linestyle,
1,
U_BS_SOLID,
U_RGB(0,0,0),
U_HS_HORIZONTAL,
0,
NULL);
}
rec = extcreatepen_set(&pen, eht, Bmi, cbPx, px, elp );
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_pen at extcreatepen_set");
}
free(elp);
if(Bmi)free(Bmi);
if(px)free(px); // ct will always be NULL
rec = selectobject_set(pen, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_pen at selectobject_set");
}
hpen = pen; // need this later for destroy_pen
if (linejoin == U_PS_JOIN_MITER) {
float miterlimit = style->stroke_miterlimit.value; // This is a ratio.
if (miterlimit < 1)miterlimit = 1;
rec = U_EMRSETMITERLIMIT_set((uint32_t) miterlimit);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::create_pen at U_EMRSETMITERLIMIT_set");
}
}
if (n_dash) { delete[] dash; }
return 0;
}
// set the current pen to the stock object NULL_PEN and then delete the defined pen object, if there is one.
void PrintEmf::destroy_pen()
{
char *rec = NULL;
// before an object may be safely deleted it must no longer be selected
// select in a stock object to deselect this one, the stock object should
// never be used because we always select in a new one before drawing anythingrestore previous brush, necessary??? Would using a default stock object not work?
rec = selectobject_set(U_NULL_PEN, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::destroy_pen at selectobject_set");
}
if (hpen){
rec = deleteobject_set(&hpen, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::destroy_pen");
}
hpen = 0;
}
}
unsigned int PrintEmf::bind(Inkscape::Extension::Print * /*mod*/, Geom::Affine const &transform, float /*opacity*/)
{
if (!m_tr_stack.empty()) {
Geom::Affine tr_top = m_tr_stack.top();
m_tr_stack.push(transform * tr_top);
} else {
m_tr_stack.push(transform);
}
return 1;
}
unsigned int PrintEmf::release(Inkscape::Extension::Print * /*mod*/)
{
m_tr_stack.pop();
return 1;
}
#define clrweight(a,b,t) ((1-t)*((double) a) + (t)*((double) b))
inline U_COLORREF PrintEmf::weight_opacity(U_COLORREF c1){
float opa = c1.Reserved/255.0;
U_COLORREF result = U_RGB(
255*opweight((float)c1.Red /255.0, gv.rgb[0], opa),
255*opweight((float)c1.Green/255.0, gv.rgb[1], opa),
255*opweight((float)c1.Blue /255.0, gv.rgb[2], opa)
);
return result;
}
// return the color between c1 and c2, c1 for t=0, c2 for t=1.0
U_COLORREF PrintEmf::weight_colors(U_COLORREF c1, U_COLORREF c2, double t){
U_COLORREF result;
result.Red = clrweight(c1.Red, c2.Red, t);
result.Green = clrweight(c1.Green, c2.Green, t);
result.Blue = clrweight(c1.Blue, c2.Blue, t);
result.Reserved = clrweight(c1.Reserved, c2.Reserved, t);
// now handle the opacity, mix the RGB with background at the weighted opacity
if(result.Reserved != 255)result = weight_opacity(result);
return result;
}
/* convert from center ellipse to SVGEllipticalArc ellipse
From:
http://www.w3.org/TR/SVG/implnote.html#ArcConversionEndpointToCenter
A point (x,y) on the arc can be found by:
{x,y} = {cx,cy} + {cosF,-sinF,sinF,cosF} x {rxcosT,rysinT}
where
{cx,cy} is the center of the ellipse
F is the rotation angle of the X axis of the ellipse from the true X axis
T is the rotation angle around the ellipse
{,,,} is the rotation matrix
rx,ry are the radii of the ellipse's axes
For SVG parameterization need two points.
Arbitrarily we can use T=0 and T=pi
Since the sweep is 180 the flags are always 0:
F is in RADIANS, but the SVGEllipticalArc needs degrees!
*/
Geom::PathVector PrintEmf::center_ellipse_as_SVG_PathV(Geom::Point ctr, double rx, double ry, double F){
using Geom::X;
using Geom::Y;
double x1,y1,x2,y2;
Geom::Path SVGep;
x1 = ctr[X] + cos(F) * rx * cos(0) + sin(-F) * ry * sin(0);
y1 = ctr[Y] + sin(F) * rx * cos(0) + cos(F) * ry * sin(0);
x2 = ctr[X] + cos(F) * rx * cos(M_PI) + sin(-F) * ry * sin(M_PI);
y2 = ctr[Y] + sin(F) * rx * cos(M_PI) + cos(F) * ry * sin(M_PI);
char text[256];
sprintf(text," M %f,%f A %f %f %f 0 0 %f %f A %f %f %f 0 0 %f %f z",x1,y1, rx,ry,F*360./(2.*M_PI),x2,y2, rx,ry,F*360./(2.*M_PI),x1,y1);
std::vector<Geom::Path> outres = Geom::parse_svg_path(text);
return outres;
}
/* rx2,ry2 must be larger than rx1,ry1!
angle is in RADIANS
*/
Geom::PathVector PrintEmf::center_elliptical_ring_as_SVG_PathV(Geom::Point ctr, double rx1, double ry1, double rx2, double ry2, double F){
using Geom::X;
using Geom::Y;
double x11,y11,x12,y12;
double x21,y21,x22,y22;
double degrot = F*360./(2.*M_PI);
x11 = ctr[X] + cos(F) * rx1 * cos(0) + sin(-F) * ry1 * sin(0);
y11 = ctr[Y] + sin(F) * rx1 * cos(0) + cos(F) * ry1 * sin(0);
x12 = ctr[X] + cos(F) * rx1 * cos(M_PI) + sin(-F) * ry1 * sin(M_PI);
y12 = ctr[Y] + sin(F) * rx1 * cos(M_PI) + cos(F) * ry1 * sin(M_PI);
x21 = ctr[X] + cos(F) * rx2 * cos(0) + sin(-F) * ry2 * sin(0);
y21 = ctr[Y] + sin(F) * rx2 * cos(0) + cos(F) * ry2 * sin(0);
x22 = ctr[X] + cos(F) * rx2 * cos(M_PI) + sin(-F) * ry2 * sin(M_PI);
y22 = ctr[Y] + sin(F) * rx2 * cos(M_PI) + cos(F) * ry2 * sin(M_PI);
char text[512];
sprintf(text," M %f,%f A %f %f %f 0 1 %f %f A %f %f %f 0 1 %f %f z M %f,%f A %f %f %f 0 0 %f %f A %f %f %f 0 0 %f %f z",
x11,y11, rx1,ry1,degrot,x12,y12, rx1,ry1,degrot,x11,y11,
x21,y21, rx2,ry2,degrot,x22,y22, rx2,ry2,degrot,x21,y21);
std::vector<Geom::Path> outres = Geom::parse_svg_path(text);
return outres;
}
/* Elliptical hole in a large square extending from -50k to +50k */
Geom::PathVector PrintEmf::center_elliptical_hole_as_SVG_PathV(Geom::Point ctr, double rx, double ry, double F){
using Geom::X;
using Geom::Y;
double x1,y1,x2,y2;
Geom::Path SVGep;
x1 = ctr[X] + cos(F) * rx * cos(0) + sin(-F) * ry * sin(0);
y1 = ctr[Y] + sin(F) * rx * cos(0) + cos(F) * ry * sin(0);
x2 = ctr[X] + cos(F) * rx * cos(M_PI) + sin(-F) * ry * sin(M_PI);
y2 = ctr[Y] + sin(F) * rx * cos(M_PI) + cos(F) * ry * sin(M_PI);
char text[256];
sprintf(text," M %f,%f A %f %f %f 0 0 %f %f A %f %f %f 0 0 %f %f z M 50000,50000 50000,-50000 -50000,-50000 -50000,50000 z",
x1,y1, rx,ry,F*360./(2.*M_PI),x2,y2, rx,ry,F*360./(2.*M_PI),x1,y1);
std::vector<Geom::Path> outres = Geom::parse_svg_path(text);
return outres;
}
/* rectangular cutter.
ctr "center" of rectangle (might not actually be in the center with respect to leading/trailing edges
pos vector from center to leading edge
neg vector from center to trailing edge
width vector to side edge
*/
Geom::PathVector PrintEmf::rect_cutter(Geom::Point ctr, Geom::Point pos, Geom::Point neg, Geom::Point width){
std::vector<Geom::Path> outres;
Geom::Path cutter;
cutter.start( ctr + pos - width);
cutter.appendNew<Geom::LineSegment>(ctr + pos + width);
cutter.appendNew<Geom::LineSegment>(ctr + neg + width);
cutter.appendNew<Geom::LineSegment>(ctr + neg - width);
cutter.close();
outres.push_back(cutter);
return outres;
}
/* Convert from SPWindRule to livarot's FillRule
This is similar to what sp_selected_path_boolop() does
*/
FillRule PrintEmf::SPWR_to_LVFR(SPWindRule wr){
FillRule fr;
if(wr == SP_WIND_RULE_EVENODD){ fr = fill_oddEven; }
else { fr = fill_nonZero; }
return fr;
}
unsigned int PrintEmf::fill(
Inkscape::Extension::Print * /*mod*/,
Geom::PathVector const &pathv, Geom::Affine const & /*transform*/, SPStyle const *style,
Geom::OptRect const &/*pbox*/, Geom::OptRect const &/*dbox*/, Geom::OptRect const &/*bbox*/)
{
using Geom::X;
using Geom::Y;
Geom::Affine tf = m_tr_stack.top();
use_fill = true;
use_stroke = false;
fill_transform = tf;
if (create_brush(style, NULL)){ // only happens if the style is a gradient
/*
Handle gradients. Uses modified livarot as 2geom boolops is currently broken.
Can handle gradients with multiple stops.
The overlap is needed to avoid antialiasing artifacts when edges are not strictly aligned on pixel boundaries.
There is an inevitable loss of accuracy saving through an EMF file because of the integer coordinate system.
Keep the overlap quite large so that loss of accuracy does not remove an overlap.
*/
destroy_pen(); //this sets the NULL_PEN, otherwise gradient slices may display with boundaries, see longer explanation below
Geom::Path cutter;
float rgb[3];
U_COLORREF wc,c1,c2;
FillRule frb = SPWR_to_LVFR( (SPWindRule) style->fill_rule.computed);
double doff,doff_base,doff_range;
double divisions= 128.0;
int nstops;
int istop = 1;
float opa; // opacity at stop
SPRadialGradient *tg = (SPRadialGradient *) (gv.grad); // linear/radial are the same here
nstops = tg->vector.stops.size();
sp_color_get_rgb_floatv(&tg->vector.stops[0].color, rgb);
opa = tg->vector.stops[0].opacity;
c1 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
sp_color_get_rgb_floatv(&tg->vector.stops[nstops-1].color, rgb);
opa = tg->vector.stops[nstops-1].opacity;
c2 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
doff = 0.0;
doff_base = 0.0;
doff_range = tg->vector.stops[1].offset; // next or last stop
if(gv.mode==DRAW_RADIAL_GRADIENT){
Geom::Point xv = gv.p2 - gv.p1; // X' vector
Geom::Point yv = gv.p3 - gv.p1; // Y' vector
Geom::Point xuv = Geom::unit_vector(xv); // X' unit vector
double rx = hypot(xv[X],xv[Y]);
double ry = hypot(yv[X],yv[Y]);
double range = fmax(rx,ry); // length along the gradient
double step = range/divisions; // adequate approximation for gradient
double overlap = step/4.0; // overlap slices slightly
double start;
double stop;
Geom::PathVector pathvc, pathvr;
/* radial gradient might stop part way through the shape, fill with outer color from there to "infinity".
Do this first so that outer colored ring will overlay it.
*/
pathvc = center_elliptical_hole_as_SVG_PathV(gv.p1, rx*(1.0 - overlap/range), ry*(1.0 - overlap/range), asin(xuv[Y]));
pathvr = sp_pathvector_boolop(pathvc, pathv, bool_op_inters, (FillRule) fill_oddEven, frb);
wc = weight_opacity(c2);
(void) create_brush(style, &wc);
print_pathv(pathvr, fill_transform);
sp_color_get_rgb_floatv(&tg->vector.stops[istop].color, rgb);
opa = tg->vector.stops[istop].opacity;
c2 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
for(start = 0.0; start < range; start += step, doff += 1./divisions){
stop = start + step + overlap;
if(stop > range)stop=range;
wc = weight_colors(c1, c2, (doff - doff_base)/(doff_range-doff_base) );
(void) create_brush(style, &wc);
pathvc = center_elliptical_ring_as_SVG_PathV(gv.p1, rx*start/range, ry*start/range, rx*stop/range, ry*stop/range, asin(xuv[Y]));
pathvr = sp_pathvector_boolop(pathvc, pathv, bool_op_inters, (FillRule) fill_nonZero, frb);
print_pathv(pathvr, fill_transform); // show the intersection
if(doff >= doff_range - doff_base){
istop++;
if(istop >= nstops)continue; // could happen on a rounding error
doff_base = doff_range;
doff_range = tg->vector.stops[istop].offset; // next or last stop
c1=c2;
sp_color_get_rgb_floatv(&tg->vector.stops[istop].color, rgb);
opa = tg->vector.stops[istop].opacity;
c2 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
}
}
}
else if(gv.mode == DRAW_LINEAR_GRADIENT){
Geom::Point uv = Geom::unit_vector(gv.p2 - gv.p1); // unit vector
Geom::Point puv = uv.cw(); // perp. to unit vector
double range = Geom::distance(gv.p1,gv.p2); // length along the gradient
double step = range/divisions; // adequate approximation for gradient
double overlap = step/4.0; // overlap slices slightly
double start;
double stop;
Geom::PathVector pathvc, pathvr;
/* before lower end of gradient, overlap first slice position */
wc = weight_opacity(c1);
(void) create_brush(style, &wc);
pathvc = rect_cutter(gv.p1, uv*(overlap), uv*(-50000.0), puv*50000.0);
pathvr = sp_pathvector_boolop(pathvc, pathv, bool_op_inters, (FillRule) fill_nonZero, frb);
print_pathv(pathvr, fill_transform);
/* after high end of gradient, overlap last slice poosition */
wc = weight_opacity(c2);
(void) create_brush(style, &wc);
pathvc = rect_cutter(gv.p2, uv*(-overlap), uv*(50000.0), puv*50000.0);
pathvr = sp_pathvector_boolop(pathvc, pathv, bool_op_inters, (FillRule) fill_nonZero, frb);
print_pathv(pathvr, fill_transform);
sp_color_get_rgb_floatv(&tg->vector.stops[istop].color, rgb);
opa = tg->vector.stops[istop].opacity;
c2 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
for(start = 0.0; start < range; start += step, doff += 1./divisions){
stop = start + step + overlap;
if(stop > range)stop=range;
pathvc = rect_cutter(gv.p1, uv*start, uv*stop, puv*50000.0);
wc = weight_colors(c1, c2, (doff - doff_base)/(doff_range-doff_base) );
(void) create_brush(style, &wc);
Geom::PathVector pathvr = sp_pathvector_boolop(pathvc, pathv, bool_op_inters, (FillRule) fill_nonZero, frb);
print_pathv(pathvr, fill_transform); // show the intersection
if(doff >= doff_range - doff_base){
istop++;
if(istop >= nstops)continue; // could happen on a rounding error
doff_base = doff_range;
doff_range = tg->vector.stops[istop].offset; // next or last stop
c1=c2;
sp_color_get_rgb_floatv(&tg->vector.stops[istop].color, rgb);
opa = tg->vector.stops[istop].opacity;
c2 = U_RGBA( 255*rgb[0], 255*rgb[1], 255*rgb[2], 255*opa );
}
}
}
else {
g_error("Fatal programming error in PrintEmf::fill, invalid gradient type detected");
}
use_fill = false; // gradients handled, be sure stroke does not use stroke and fill
}
else {
/*
Inkscape was not calling create_pen for objects with no border.
This was because it never called stroke() (next method).
PPT, and presumably others, pick whatever they want for the border if it is not specified, so no border can
become a visible border.
To avoid this force the pen to NULL_PEN if we can determine that no pen will be needed after the fill.
*/
if (style->stroke.noneSet || style->stroke_width.computed == 0.0){
destroy_pen(); //this sets the NULL_PEN
}
/* postpone fill in case stroke also required AND all stroke paths closed
Dashes converted to line segments will "open" a closed path.
*/
bool all_closed = true;
for (Geom::PathVector::const_iterator pit = pathv.begin(); pit != pathv.end(); ++pit){
for (Geom::Path::const_iterator cit = pit->begin(); cit != pit->end_open(); ++cit){
if (pit->end_default() != pit->end_closed()) { all_closed=false; }
}
}
if (
(style->stroke.isNone() || style->stroke.noneSet || style->stroke_width.computed == 0.0) ||
(style->stroke_dash.n_dash && style->stroke_dash.dash && FixPPTDashLine) ||
!all_closed
){
print_pathv(pathv, fill_transform); // do any fills. side effect: clears fill_pathv
use_fill = false;
}
}
return 0;
}
unsigned int PrintEmf::stroke (
Inkscape::Extension::Print * /*mod*/,
Geom::PathVector const &pathv, const Geom::Affine &/*transform*/, const SPStyle *style,
Geom::OptRect const &/*pbox*/, Geom::OptRect const &/*dbox*/, Geom::OptRect const &/*bbox*/)
{
char *rec = NULL;
Geom::Affine tf = m_tr_stack.top();
use_stroke = true;
// use_fill was set in ::fill, if it is needed
if (create_pen(style, tf))return 0;
if (style->stroke_dash.n_dash && style->stroke_dash.dash && FixPPTDashLine ){
// convert the path, gets its complete length, and then make a new path with parameter length instead of t
Geom::Piecewise<Geom::D2<Geom::SBasis> > tmp_pathpw; // pathv-> sbasis
Geom::Piecewise<Geom::D2<Geom::SBasis> > tmp_pathpw2; // sbasis using arc length parameter
Geom::Piecewise<Geom::D2<Geom::SBasis> > tmp_pathpw3; // new (discontinuous) path, composed of dots/dashes
Geom::Piecewise<Geom::D2<Geom::SBasis> > first_frag; // first fragment, will be appended at end
int n_dash = style->stroke_dash.n_dash;
int i=0; //dash index
double tlength; // length of tmp_pathpw
double slength=0.0; // start of gragment
double elength; // end of gragment
for (unsigned int i=0; i < pathv.size(); i++) {
tmp_pathpw.concat(pathv[i].toPwSb());
}
tlength = length(tmp_pathpw,0.1);
tmp_pathpw2 = arc_length_parametrization(tmp_pathpw);
// go around the dash array repeatedly until the entire path is consumed (but not beyond).
while(slength < tlength){
elength = slength + style->stroke_dash.dash[i++];
if(elength > tlength)elength = tlength;
Geom::Piecewise<Geom::D2<Geom::SBasis> > fragment(portion(tmp_pathpw2, slength, elength));
if(slength){ tmp_pathpw3.concat(fragment); }
else { first_frag = fragment; }
slength = elength;
slength += style->stroke_dash.dash[i++]; // the gap
if(i>=n_dash)i=0;
}
tmp_pathpw3.concat(first_frag); // may merge line around start point
Geom::PathVector out_pathv = Geom::path_from_piecewise(tmp_pathpw3, 0.01);
print_pathv(out_pathv, tf);
}
else {
print_pathv(pathv, tf);
}
use_stroke = false;
use_fill = false;
if(usebk){ // OPAQUE was set, revert to TRANSPARENT
usebk = false;
rec = U_EMRSETBKMODE_set(U_TRANSPARENT);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::stroke at U_EMRSETBKMODE_set");
}
}
return 0;
}
// Draws simple_shapes, those with closed EMR_* primitives, like polygons, rectangles and ellipses.
// These use whatever the current pen/brush are and need not be followed by a FILLPATH or STROKEPATH.
// For other paths it sets a few flags and returns.
bool PrintEmf::print_simple_shape(Geom::PathVector const &pathv, const Geom::Affine &transform)
{
Geom::PathVector pv = pathv_to_linear_and_cubic_beziers( pathv * transform );
int nodes = 0;
int moves = 0;
int lines = 0;
int curves = 0;
char *rec = NULL;
for (Geom::PathVector::const_iterator pit = pv.begin(); pit != pv.end(); ++pit)
{
moves++;
nodes++;
for (Geom::Path::const_iterator cit = pit->begin(); cit != pit->end_open(); ++cit)
{
nodes++;
if ( is_straight_curve(*cit) ) { lines++; }
else if(&*cit) { curves++; }
}
}
if (!nodes)
return false;
U_POINT *lpPoints = new U_POINT[moves + lines + curves*3];
int i = 0;
/**
* For all Subpaths in the <path>
*/
for (Geom::PathVector::const_iterator pit = pv.begin(); pit != pv.end(); ++pit)
{
using Geom::X;
using Geom::Y;
Geom::Point p0 = pit->initialPoint();
p0[X] = (p0[X] * PX2WORLD);
p0[Y] = (p0[Y] * PX2WORLD);
int32_t const x0 = (int32_t) round(p0[X]);
int32_t const y0 = (int32_t) round(p0[Y]);
lpPoints[i].x = x0;
lpPoints[i].y = y0;
i = i + 1;
/**
* For all segments in the subpath
*/
for (Geom::Path::const_iterator cit = pit->begin(); cit != pit->end_open(); ++cit)
{
if ( is_straight_curve(*cit) )
{
//Geom::Point p0 = cit->initialPoint();
Geom::Point p1 = cit->finalPoint();
//p0[X] = (p0[X] * PX2WORLD);
p1[X] = (p1[X] * PX2WORLD);
//p0[Y] = (p0[Y] * PX2WORLD);
p1[Y] = (p1[Y] * PX2WORLD);
//int32_t const x0 = (int32_t) round(p0[X]);
//int32_t const y0 = (int32_t) round(p0[Y]);
int32_t const x1 = (int32_t) round(p1[X]);
int32_t const y1 = (int32_t) round(p1[Y]);
lpPoints[i].x = x1;
lpPoints[i].y = y1;
i = i + 1;
}
else if (Geom::CubicBezier const *cubic = dynamic_cast<Geom::CubicBezier const*>(&*cit))
{
std::vector<Geom::Point> points = cubic->points();
//Geom::Point p0 = points[0];
Geom::Point p1 = points[1];
Geom::Point p2 = points[2];
Geom::Point p3 = points[3];
//p0[X] = (p0[X] * PX2WORLD);
p1[X] = (p1[X] * PX2WORLD);
p2[X] = (p2[X] * PX2WORLD);
p3[X] = (p3[X] * PX2WORLD);
//p0[Y] = (p0[Y] * PX2WORLD);
p1[Y] = (p1[Y] * PX2WORLD);
p2[Y] = (p2[Y] * PX2WORLD);
p3[Y] = (p3[Y] * PX2WORLD);
//int32_t const x0 = (int32_t) round(p0[X]);
//int32_t const y0 = (int32_t) round(p0[Y]);
int32_t const x1 = (int32_t) round(p1[X]);
int32_t const y1 = (int32_t) round(p1[Y]);
int32_t const x2 = (int32_t) round(p2[X]);
int32_t const y2 = (int32_t) round(p2[Y]);
int32_t const x3 = (int32_t) round(p3[X]);
int32_t const y3 = (int32_t) round(p3[Y]);
lpPoints[i].x = x1;
lpPoints[i].y = y1;
lpPoints[i+1].x = x2;
lpPoints[i+1].y = y2;
lpPoints[i+2].x = x3;
lpPoints[i+2].y = y3;
i = i + 3;
}
}
}
bool done = false;
bool closed = (lpPoints[0].x == lpPoints[i-1].x) && (lpPoints[0].y == lpPoints[i-1].y);
bool polygon = false;
bool rectangle = false;
bool ellipse = false;
if (moves == 1 && moves+lines == nodes && closed) {
polygon = true;
// if (nodes==5) { // disable due to LP Bug 407394
// if (lpPoints[0].x == lpPoints[3].x && lpPoints[1].x == lpPoints[2].x &&
// lpPoints[0].y == lpPoints[1].y && lpPoints[2].y == lpPoints[3].y)
// {
// rectangle = true;
// }
// }
}
else if (moves == 1 && nodes == 5 && moves+curves == nodes && closed) {
// if (lpPoints[0].x == lpPoints[1].x && lpPoints[1].x == lpPoints[11].x &&
// lpPoints[5].x == lpPoints[6].x && lpPoints[6].x == lpPoints[7].x &&
// lpPoints[2].x == lpPoints[10].x && lpPoints[3].x == lpPoints[9].x && lpPoints[4].x == lpPoints[8].x &&
// lpPoints[2].y == lpPoints[3].y && lpPoints[3].y == lpPoints[4].y &&
// lpPoints[8].y == lpPoints[9].y && lpPoints[9].y == lpPoints[10].y &&
// lpPoints[5].y == lpPoints[1].y && lpPoints[6].y == lpPoints[0].y && lpPoints[7].y == lpPoints[11].y)
// { // disable due to LP Bug 407394
// ellipse = true;
// }
}
if (polygon || ellipse) {
if (use_fill && !use_stroke) { // only fill
rec = selectobject_set(U_NULL_PEN, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_simple_shape at selectobject_set pen");
}
}
else if(!use_fill && use_stroke) { // only stroke
rec = selectobject_set(U_NULL_BRUSH, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_simple_shape at selectobject_set brush");
}
}
if (polygon) {
if (rectangle){
U_RECTL rcl = rectl_set((U_POINTL) {lpPoints[0].x, lpPoints[0].y}, (U_POINTL) {lpPoints[2].x, lpPoints[2].y});
rec = U_EMRRECTANGLE_set(rcl);
}
else {
rec = U_EMRPOLYGON_set(U_RCL_DEF, nodes, lpPoints);
}
}
else if (ellipse) {
U_RECTL rcl = rectl_set((U_POINTL) {lpPoints[6].x, lpPoints[3].y}, (U_POINTL) {lpPoints[0].x, lpPoints[9].y});
rec = U_EMRELLIPSE_set(rcl);
}
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_simple_shape at retangle/ellipse/polygon");
}
done = true;
// replace the handle we moved above, assuming there was something set already
if (use_fill && !use_stroke && hpen) { // only fill
rec = selectobject_set(hpen, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_simple_shape at selectobject_set pen");
}
}
else if (!use_fill && use_stroke && hbrush){ // only stroke
rec = selectobject_set(hbrush, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_simple_shape at selectobject_set brush");
}
}
}
delete[] lpPoints;
return done;
}
/** Some parts based on win32.cpp by Lauris Kaplinski <lauris@kaplinski.com>. Was a part of Inkscape
in the past (or will be in the future?) Not in current trunk. (4/19/2012)
Limitations of this code:
1. Transparency is lost on export. (Apparently a limitation of the EMF format.)
2. Probably messes up if row stride != w*4
3. There is still a small memory leak somewhere, possibly in a pixbuf created in a routine
that calls this one and passes px, but never removes the rest of the pixbuf. The first time
this is called it leaked 5M (in one test) and each subsequent call leaked around 200K more.
If this routine is reduced to
if(1)return(0);
and called for a single 1280 x 1024 image then the program leaks 11M per call, or roughly the
size of two bitmaps.
*/
unsigned int PrintEmf::image(
Inkscape::Extension::Print * /* module */, /** not used */
unsigned char *rgba_px, /** array of pixel values, Gdk::Pixbuf bitmap format */
unsigned int w, /** width of bitmap */
unsigned int h, /** height of bitmap */
unsigned int rs, /** row stride (normally w*4) */
Geom::Affine const &/*tf_ignore*/, /** WRONG affine transform, use the one from m_tr_stack */
SPStyle const *style) /** provides indirect link to image object */
{
double x1,y1,dw,dh;
char *rec = NULL;
Geom::Affine tf = m_tr_stack.top();
rec = U_EMRSETSTRETCHBLTMODE_set(U_COLORONCOLOR);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::image at EMRHEADER");
}
x1= atof(style->object->getAttribute("x"));
y1= atof(style->object->getAttribute("y"));
dw= atof(style->object->getAttribute("width"));
dh= atof(style->object->getAttribute("height"));
Geom::Point pLL(x1,y1);
Geom::Point pLL2 = pLL * tf; //location of LL corner in Inkscape coordinates
char *px;
uint32_t cbPx;
uint32_t colortype;
PU_RGBQUAD ct;
int numCt;
U_BITMAPINFOHEADER Bmih;
PU_BITMAPINFO Bmi;
colortype = U_BCBM_COLOR32;
(void) RGBA_to_DIB(&px, &cbPx, &ct, &numCt, (char *) rgba_px, w, h, w*4, colortype, 0, 1);
Bmih = bitmapinfoheader_set(w, h, 1, colortype, U_BI_RGB, 0, PXPERMETER, PXPERMETER, numCt, 0);
Bmi = bitmapinfo_set(Bmih, ct);
U_POINTL Dest = pointl_set(round(pLL2[Geom::X] * PX2WORLD), round(pLL2[Geom::Y] * PX2WORLD));
U_POINTL cDest = pointl_set(round(dw * PX2WORLD), round(dh * PX2WORLD));
U_POINTL Src = pointl_set(0,0);
U_POINTL cSrc = pointl_set(w,h);
if(!FixImageRot){ /* Rotate images - some programs cannot read them in correctly if they are rotated */
tf[4] = tf[5] = 0.0; // get rid of the offset in the transform
Geom::Point pLL2prime = pLL2 * tf;
U_XFORM tmpTransform;
tmpTransform.eM11 = tf[0];
tmpTransform.eM12 = tf[1];
tmpTransform.eM21 = tf[2];
tmpTransform.eM22 = tf[3];
tmpTransform.eDx = (pLL2[Geom::X] - pLL2prime[Geom::X]) * PX2WORLD; //map pLL2 (now in EMF coordinates) back onto itself after the rotation
tmpTransform.eDy = (pLL2[Geom::Y] - pLL2prime[Geom::Y]) * PX2WORLD;
rec=U_EMRSAVEDC_set();
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::image at U_EMRSAVEDC_set");
}
rec = U_EMRMODIFYWORLDTRANSFORM_set(tmpTransform, U_MWT_LEFTMULTIPLY);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::image at EMRMODIFYWORLDTRANSFORM");
}
}
rec = U_EMRSTRETCHDIBITS_set(
U_RCL_DEF, //! Bounding rectangle in device units
Dest, //! Destination UL corner in logical units
cDest, //! Destination W & H in logical units
Src, //! Source UL corner in logical units
cSrc, //! Source W & H in logical units
U_DIB_RGB_COLORS, //! DIBColors Enumeration
U_SRCCOPY, //! RasterOPeration Enumeration
Bmi, //! (Optional) bitmapbuffer (U_BITMAPINFO section)
h*rs, //! size in bytes of px
px //! (Optional) bitmapbuffer (U_BITMAPINFO section)
);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::image at U_EMRSTRETCHDIBITS_set");
}
free(px);
free(Bmi);
if(numCt)free(ct);
if(!FixImageRot){
rec=U_EMRRESTOREDC_set(-1);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::image at U_EMRRESTOREDC_set");
}
}
return 0;
}
// may also be called with a simple_shape or an empty path, whereupon it just returns without doing anything
unsigned int PrintEmf::print_pathv(Geom::PathVector const &pathv, const Geom::Affine &transform)
{
Geom::Affine tf = transform;
char *rec = NULL;
simple_shape = print_simple_shape(pathv, tf);
if (simple_shape || pathv.empty()){
if (use_fill){ destroy_brush(); } // these must be cleared even if nothing is drawn or hbrush,hpen fill up
if (use_stroke){ destroy_pen(); }
return TRUE;
}
/* inkscape to EMF scaling is done below, but NOT the rotation/translation transform,
that is handled by the EMF MODIFYWORLDTRANSFORM record
*/
Geom::PathVector pv = pathv_to_linear_and_cubic_beziers( pathv * tf );
rec = U_EMRBEGINPATH_set();
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRBEGINPATH_set");
}
/**
* For all Subpaths in the <path>
*/
for (Geom::PathVector::const_iterator pit = pv.begin(); pit != pv.end(); ++pit)
{
using Geom::X;
using Geom::Y;
Geom::Point p0 = pit->initialPoint();
p0[X] = (p0[X] * PX2WORLD);
p0[Y] = (p0[Y] * PX2WORLD);
U_POINTL ptl = pointl_set((int32_t) round(p0[X]), (int32_t) round(p0[Y]));
rec = U_EMRMOVETOEX_set(ptl);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRMOVETOEX_set");
}
/**
* For all segments in the subpath
*/
for (Geom::Path::const_iterator cit = pit->begin(); cit != pit->end_open(); ++cit)
{
if ( is_straight_curve(*cit) )
{
//Geom::Point p0 = cit->initialPoint();
Geom::Point p1 = cit->finalPoint();
//p0[X] = (p0[X] * PX2WORLD);
p1[X] = (p1[X] * PX2WORLD);
//p0[Y] = (p0[Y] * PX2WORLD);
p1[Y] = (p1[Y] * PX2WORLD);
//int32_t const x0 = (int32_t) round(p0[X]);
//int32_t const y0 = (int32_t) round(p0[Y]);
ptl = pointl_set((int32_t) round(p1[X]), (int32_t) round(p1[Y]));
rec = U_EMRLINETO_set(ptl);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRLINETO_set");
}
}
else if (Geom::CubicBezier const *cubic = dynamic_cast<Geom::CubicBezier const*>(&*cit))
{
std::vector<Geom::Point> points = cubic->points();
//Geom::Point p0 = points[0];
Geom::Point p1 = points[1];
Geom::Point p2 = points[2];
Geom::Point p3 = points[3];
//p0[X] = (p0[X] * PX2WORLD);
p1[X] = (p1[X] * PX2WORLD);
p2[X] = (p2[X] * PX2WORLD);
p3[X] = (p3[X] * PX2WORLD);
//p0[Y] = (p0[Y] * PX2WORLD);
p1[Y] = (p1[Y] * PX2WORLD);
p2[Y] = (p2[Y] * PX2WORLD);
p3[Y] = (p3[Y] * PX2WORLD);
//int32_t const x0 = (int32_t) round(p0[X]);
//int32_t const y0 = (int32_t) round(p0[Y]);
int32_t const x1 = (int32_t) round(p1[X]);
int32_t const y1 = (int32_t) round(p1[Y]);
int32_t const x2 = (int32_t) round(p2[X]);
int32_t const y2 = (int32_t) round(p2[Y]);
int32_t const x3 = (int32_t) round(p3[X]);
int32_t const y3 = (int32_t) round(p3[Y]);
U_POINTL pt[3];
pt[0].x = x1;
pt[0].y = y1;
pt[1].x = x2;
pt[1].y = y2;
pt[2].x = x3;
pt[2].y = y3;
rec = U_EMRPOLYBEZIERTO_set(U_RCL_DEF, 3, pt);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRPOLYBEZIERTO_set");
}
}
else
{
g_warning("logical error, because pathv_to_linear_and_cubic_beziers was used");
}
}
if (pit->end_default() == pit->end_closed()) { // there may be multiples of this on a single path
rec = U_EMRCLOSEFIGURE_set();
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRCLOSEFIGURE_set");
}
}
}
rec = U_EMRENDPATH_set(); // there may be only be one of these on a single path
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::print_pathv at U_EMRENDPATH_set");
}
// explicit FILL/STROKE commands are needed for each sub section of the path
if (use_fill && !use_stroke){
rec = U_EMRFILLPATH_set(U_RCL_DEF);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::fill at U_EMRFILLPATH_set");
}
}
else if (use_fill && use_stroke) {
rec = U_EMRSTROKEANDFILLPATH_set(U_RCL_DEF);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::stroke at U_EMRSTROKEANDFILLPATH_set");
}
}
else if (!use_fill && use_stroke){
rec = U_EMRSTROKEPATH_set(U_RCL_DEF);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::stroke at U_EMRSTROKEPATH_set");
}
}
// clean out brush and pen, but only after all parts of the draw complete
if (use_fill){
destroy_brush();
}
if (use_stroke){
destroy_pen();
}
return TRUE;
}
bool PrintEmf::textToPath(Inkscape::Extension::Print * ext)
{
return ext->get_param_bool("textToPath");
}
unsigned int PrintEmf::text(Inkscape::Extension::Print * /*mod*/, char const *text, Geom::Point const &p,
SPStyle const *const style)
{
if (!et) return 0;
char *rec = NULL;
int ccount,newfont;
int fix90n=0;
uint32_t hfont = 0;
Geom::Affine tf = m_tr_stack.top();
double rot = -1800.0*std::atan2(tf[1], tf[0])/M_PI; // 0.1 degree rotation, - sign for MM_TEXT
double rotb = -std::atan2(tf[1], tf[0]); // rotation for baseline offset for superscript/subscript, used below
double dx,dy;
double f1,f2,f3;
double ky;
// the dx array is smuggled in like: text<nul>w1 w2 w3 ...wn<nul><nul>, where the widths are floats 7 characters wide, including the space
int ndx, rtl;
uint32_t *adx;
smuggle_adxkyrtl_out(text, &adx, &ky, &rtl, &ndx, PX2WORLD * std::min(tf.expansionX(),tf.expansionY())); // side effect: free() adx
uint32_t textalignment;
if(rtl > 0){ textalignment = U_TA_BASELINE | U_TA_LEFT; }
else { textalignment = U_TA_BASELINE | U_TA_RIGHT | U_TA_RTLREADING; }
if(textalignment != htextalignment){
htextalignment = textalignment;
rec = U_EMRSETTEXTALIGN_set(textalignment);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at U_EMRSETTEXTALIGN_set");
}
}
char *text2 = strdup(text); // because U_Utf8ToUtf16le calls iconv which does not like a const char *
uint16_t *unicode_text = U_Utf8ToUtf16le( text2, 0, NULL );
free(text2);
//translates Unicode to NonUnicode, if possible. If any translate, all will, and all to
//the same font, because of code in Layout::print
UnicodeToNon(unicode_text, &ccount, &newfont);
//PPT gets funky with text within +-1 degree of a multiple of 90, but only for SOME fonts.Snap those to the central value
//Some funky ones: Arial, Times New Roman
//Some not funky ones: Symbol and Verdana.
//Without a huge table we cannot catch them all, so just the most common problem ones.
if(FixPPTCharPos){
switch(newfont){
case CVTSYM:
search_short_fflist("Convert To Symbol", &f1, &f2, &f3);
break;
case CVTZDG:
search_short_fflist("Convert To Zapf Dingbats", &f1, &f2, &f3);
break;
case CVTWDG:
search_short_fflist("Convert To Wingdings", &f1, &f2, &f3);
break;
default: //also CVTNON
search_short_fflist(style->text->font_family.value, &f1, &f2, &f3);
break;
}
if(f2 || f3){
int irem = ((int) round(rot)) % 900 ;
if(irem <=9 && irem >= -9){
fix90n=1; //assume vertical
rot = (double) (((int) round(rot)) - irem);
rotb = rot*M_PI/1800.0;
if( abs(rot) == 900.0 ){ fix90n = 2; }
}
}
}
/* Note that text font sizes are stored into the EMF as fairly small integers and that limits their precision.
The EMF output files produced here have been designed so that the integer valued pt sizes
land right on an integer value in the EMF file, so those are exact. However, something like 18.1 pt will be
somewhat off, so that when it is read back in it becomes 18.11 pt. (For instance.)
*/
int textheight = round(-style->font_size.computed * PX2WORLD * std::min(tf.expansionX(),tf.expansionY()));
if (!hfont) {
// Get font face name. Use changed font name if unicode mapped to one
// of the special fonts.
uint16_t *wfacename;
if(!newfont){ wfacename = U_Utf8ToUtf16le(style->text->font_family.value, 0, NULL); }
else { wfacename = U_Utf8ToUtf16le(FontName(newfont), 0, NULL); }
// Scale the text to the minimum stretch. (It tends to stay within bounding rectangles even if
// it was streteched asymmetrically.) Few applications support text from EMF which is scaled
// differently by height/width, so leave lfWidth alone.
U_LOGFONT lf = logfont_set(
textheight,
0,
round(rot),
round(rot),
transweight(style->font_weight.computed),
(style->font_style.computed == SP_CSS_FONT_STYLE_ITALIC),
style->text_decoration_line.underline,
style->text_decoration_line.line_through,
U_DEFAULT_CHARSET,
U_OUT_DEFAULT_PRECIS,
U_CLIP_DEFAULT_PRECIS,
U_DEFAULT_QUALITY,
U_DEFAULT_PITCH | U_FF_DONTCARE,
wfacename);
free(wfacename);
rec = extcreatefontindirectw_set(&hfont, eht, (char *) &lf, NULL);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at extcreatefontindirectw_set");
}
}
rec = selectobject_set(hfont, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at selectobject_set");
}
float rgb[3];
sp_color_get_rgb_floatv( &style->fill.value.color, rgb );
// only change the text color when it needs to be changed
if(memcmp(htextcolor_rgb,rgb,3*sizeof(float))){
memcpy(htextcolor_rgb,rgb,3*sizeof(float));
rec = U_EMRSETTEXTCOLOR_set(U_RGB(255*rgb[0], 255*rgb[1], 255*rgb[2]));
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at U_EMRSETTEXTCOLOR_set");
}
}
Geom::Point p2 = p * tf;
//Handle super/subscripts and vertical kerning
/* Previously used this, but vertical kerning was not supported
p2[Geom::X] -= style->baseline_shift.computed * std::sin( rotb );
p2[Geom::Y] -= style->baseline_shift.computed * std::cos( rotb );
*/
p2[Geom::X] += ky * std::sin( rotb );
p2[Geom::Y] += ky * std::cos( rotb );
//Conditionally handle compensation for PPT EMF import bug (affects PPT 2003-2010, at least)
if(FixPPTCharPos){
if(fix90n==1){ //vertical
dx= 0.0;
dy= f3 * style->font_size.computed * std::cos( rotb );
}
else if(fix90n==2){ //horizontal
dx= f2 * style->font_size.computed * std::sin( rotb );
dy= 0.0;
}
else {
dx= f1 * style->font_size.computed * std::sin( rotb );
dy= f1 * style->font_size.computed * std::cos( rotb );
}
p2[Geom::X] += dx;
p2[Geom::Y] += dy;
}
p2[Geom::X] = (p2[Geom::X] * PX2WORLD);
p2[Geom::Y] = (p2[Geom::Y] * PX2WORLD);
int32_t const xpos = (int32_t) round(p2[Geom::X]);
int32_t const ypos = (int32_t) round(p2[Geom::Y]);
// The number of characters in the string is a bit fuzzy. ndx, the number of entries in adx is
// the number of VISIBLE characters, since some may combine from the UTF (8 originally,
// now 16) encoding. Conversely strlen() or wchar16len() would give the absolute number of
// encoding characters. Unclear if emrtext wants the former or the latter but for now assume the former.
// This is currently being smuggled in from caller as part of text, works
// MUCH better than the fallback hack below
// uint32_t *adx = dx_set(textheight, U_FW_NORMAL, slen); // dx is needed, this makes one up
char *rec2;
if(rtl>0){
rec2 = emrtext_set( (U_POINTL) {xpos, ypos}, ndx, 2, unicode_text, U_ETO_NONE, U_RCL_DEF, adx);
}
else { // RTL text, U_TA_RTLREADING should be enough, but set this one too just in case
rec2 = emrtext_set( (U_POINTL) {xpos, ypos}, ndx, 2, unicode_text, U_ETO_RTLREADING, U_RCL_DEF, adx);
}
free(unicode_text);
free(adx);
rec = U_EMREXTTEXTOUTW_set(U_RCL_DEF,U_GM_COMPATIBLE,1.0,1.0,(PU_EMRTEXT)rec2);
free(rec2);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at U_EMREXTTEXTOUTW_set");
}
// Must deselect an object before deleting it. Put the default font (back) in.
rec = selectobject_set(U_DEVICE_DEFAULT_FONT, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at selectobject_set");
}
if(hfont){
rec = deleteobject_set(&hfont, eht);
if(!rec || emf_append((PU_ENHMETARECORD)rec, et, U_REC_FREE)){
g_error("Fatal programming error in PrintEmf::text at deleteobject_set");
}
}
return 0;
}
void PrintEmf::init (void)
{
read_system_fflist();
/* EMF print */
Inkscape::Extension::build_from_mem(
"<inkscape-extension xmlns=\"" INKSCAPE_EXTENSION_URI "\">\n"
"<name>Enhanced Metafile Print</name>\n"
"<id>org.inkscape.print.emf</id>\n"
"<param name=\"destination\" type=\"string\"></param>\n"
"<param name=\"textToPath\" type=\"boolean\">true</param>\n"
"<param name=\"pageBoundingBox\" type=\"boolean\">true</param>\n"
"<param name=\"FixPPTCharPos\" type=\"boolean\">false</param>\n"
"<param name=\"FixPPTDashLine\" type=\"boolean\">false</param>\n"
"<param name=\"FixPPTGrad2Polys\" type=\"boolean\">false</param>\n"
"<param name=\"FixPPTPatternAsHatch\" type=\"boolean\">false</param>\n"
"<param name=\"FixImageRot\" type=\"boolean\">false</param>\n"
"<print/>\n"
"</inkscape-extension>", new PrintEmf());
return;
}
} /* namespace Internal */
} /* namespace Extension */
} /* namespace Inkscape */
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :