#include <stdlib.h>
#include <stdio.h>
#include <math.h>
+#include "../../config.h"
+#ifdef HAVE_UNISTD_H
#include <unistd.h>
+#endif
#include <memory.h>
+#ifdef HAVE_IO_H
+#include <io.h>
+#endif
+#include <string.h>
#include "../gfxdevice.h"
#include "../gfxtools.h"
#include "../types.h"
#include "../bitio.h"
+#include "../log.h"
+#include "record.h"
typedef struct _internal {
gfxfontlist_t* fontlist;
writer_t w;
+ int cliplevel;
} internal_t;
typedef struct _internal_result {
static int record_setparameter(struct _gfxdevice*dev, const char*key, const char*value)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x SETPARAM %s %s\n", dev, key, value);
writer_writeU8(&i->w, OP_SETPARAM);
writer_writeString(&i->w, key);
writer_writeString(&i->w, value);
unsigned char op = reader_readU8(r);
if(op == OP_END)
break;
- gfxline_t*line = rfx_calloc(sizeof(gfxline_t));
+ gfxline_t*line = (gfxline_t*)rfx_calloc(sizeof(gfxline_t));
if(!start) {
start = pos = line;
} else {
gfximage_t img;
img.width = reader_readU16(r);
img.height = reader_readU16(r);
- img.data = rfx_alloc(img.width*img.height*4);
+ img.data = (gfxcolor_t*)rfx_alloc(img.width*img.height*4);
r->read(r, img.data, img.width*img.height*4);
return img;
}
U8 op = reader_readU8(r);
if(!op)
break;
- gfxgradient_t*g = rfx_calloc(sizeof(gfxgradient_t));
+ gfxgradient_t*g = (gfxgradient_t*)rfx_calloc(sizeof(gfxgradient_t));
if(!start) {
start = pos = g;
} else {
U8 type = reader_readU8(r);
if(!type)
return 0;
- gfxcxform_t* c = rfx_calloc(sizeof(gfxcxform_t));
+ gfxcxform_t* c = (gfxcxform_t*)rfx_calloc(sizeof(gfxcxform_t));
c->rr = reader_readFloat(r); c->rg = reader_readFloat(r); c->rb = reader_readFloat(r); c->ra = reader_readFloat(r);
c->gr = reader_readFloat(r); c->gg = reader_readFloat(r); c->gb = reader_readFloat(r); c->ga = reader_readFloat(r);
c->br = reader_readFloat(r); c->bg = reader_readFloat(r); c->bb = reader_readFloat(r); c->ba = reader_readFloat(r);
}
static gfxfont_t*readFont(reader_t*r)
{
- gfxfont_t* font = rfx_calloc(sizeof(gfxfont_t));
+ gfxfont_t* font = (gfxfont_t*)rfx_calloc(sizeof(gfxfont_t));
font->id = reader_readString(r);
font->num_glyphs = reader_readU32(r);
font->max_unicode = reader_readU32(r);
- font->glyphs = rfx_calloc(sizeof(gfxglyph_t)*font->num_glyphs);
- font->unicode2glyph = rfx_calloc(sizeof(font->unicode2glyph[0])*font->max_unicode);
+ font->glyphs = (gfxglyph_t*)rfx_calloc(sizeof(gfxglyph_t)*font->num_glyphs);
+ font->unicode2glyph = (int*)rfx_calloc(sizeof(font->unicode2glyph[0])*font->max_unicode);
int t;
for(t=0;t<font->num_glyphs;t++) {
font->glyphs[t].line = readLine(r);
font->glyphs[t].unicode = reader_readU32(r);
font->glyphs[t].name = reader_readString(r);
if(!font->glyphs[t].name[0]) {
- free(font->glyphs[t].name);
+ free((void*)(font->glyphs[t].name));
font->glyphs[t].name = 0;
}
}
static void record_stroke(struct _gfxdevice*dev, gfxline_t*line, gfxcoord_t width, gfxcolor_t*color, gfx_capType cap_style, gfx_joinType joint_style, gfxcoord_t miterLimit)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x STROKE\n", dev);
writer_writeU8(&i->w, OP_STROKE);
writer_writeDouble(&i->w, width);
writer_writeDouble(&i->w, miterLimit);
static void record_startclip(struct _gfxdevice*dev, gfxline_t*line)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x STARTCLIP\n", dev);
writer_writeU8(&i->w, OP_STARTCLIP);
dumpLine(&i->w, line);
+ i->cliplevel++;
}
static void record_endclip(struct _gfxdevice*dev)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x ENDCLIP\n", dev);
writer_writeU8(&i->w, OP_ENDCLIP);
+ i->cliplevel--;
+ if(i->cliplevel<0) {
+ msg("<error> record: endclip() without startclip()");
+ }
}
static void record_fill(struct _gfxdevice*dev, gfxline_t*line, gfxcolor_t*color)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x FILL\n", dev);
writer_writeU8(&i->w, OP_FILL);
dumpColor(&i->w, color);
dumpLine(&i->w, line);
static void record_fillbitmap(struct _gfxdevice*dev, gfxline_t*line, gfximage_t*img, gfxmatrix_t*matrix, gfxcxform_t*cxform)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x FILLBITMAP\n", dev);
writer_writeU8(&i->w, OP_FILLBITMAP);
dumpImage(&i->w, img);
dumpMatrix(&i->w, matrix);
static void record_fillgradient(struct _gfxdevice*dev, gfxline_t*line, gfxgradient_t*gradient, gfxgradienttype_t type, gfxmatrix_t*matrix)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x FILLGRADIENT %08x\n", dev, gradient);
writer_writeU8(&i->w, OP_FILLGRADIENT);
writer_writeU8(&i->w, type);
dumpGradient(&i->w, gradient);
static void record_addfont(struct _gfxdevice*dev, gfxfont_t*font)
{
internal_t*i = (internal_t*)dev->internal;
- writer_writeU8(&i->w, OP_ADDFONT);
- dumpFont(&i->w, font);
- i->fontlist = gfxfontlist_addfont(i->fontlist, font);
+ msg("<trace> record: %08x ADDFONT %s\n", dev, font->id);
+ if(font && !gfxfontlist_hasfont(i->fontlist, font)) {
+ writer_writeU8(&i->w, OP_ADDFONT);
+ dumpFont(&i->w, font);
+ i->fontlist = gfxfontlist_addfont(i->fontlist, font);
+ }
}
static void record_drawchar(struct _gfxdevice*dev, gfxfont_t*font, int glyphnr, gfxcolor_t*color, gfxmatrix_t*matrix)
{
internal_t*i = (internal_t*)dev->internal;
- if(!gfxfontlist_hasfont(i->fontlist, font))
+ if(font && !gfxfontlist_hasfont(i->fontlist, font)) {
record_addfont(dev, font);
+ }
+ msg("<trace> record: %08x DRAWCHAR %d\n", glyphnr, dev);
writer_writeU8(&i->w, OP_DRAWCHAR);
- writer_writeString(&i->w, font->id);
+ if(font)
+ writer_writeString(&i->w, font->id);
+ else
+ writer_writeString(&i->w, "*NULL*");
writer_writeU32(&i->w, glyphnr);
dumpColor(&i->w, color);
dumpMatrix(&i->w, matrix);
static void record_startpage(struct _gfxdevice*dev, int width, int height)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x STARTPAGE\n", dev);
writer_writeU8(&i->w, OP_STARTPAGE);
writer_writeU16(&i->w, width);
writer_writeU16(&i->w, height);
static void record_endpage(struct _gfxdevice*dev)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x ENDPAGE\n", dev);
writer_writeU8(&i->w, OP_ENDPAGE);
}
-static void record_drawlink(struct _gfxdevice*dev, gfxline_t*line, char*action)
+static void record_drawlink(struct _gfxdevice*dev, gfxline_t*line, const char*action)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x DRAWLINK\n", dev);
writer_writeU8(&i->w, OP_DRAWLINK);
dumpLine(&i->w, line);
writer_writeString(&i->w, action);
}
-void gfxresult_record_replay(gfxresult_t*result, gfxdevice_t*device)
+static void replay(struct _gfxdevice*dev, gfxdevice_t*out, void*data, int length)
{
- internal_result_t*i = (internal_result_t*)result->internal;
+ internal_t*i = 0;
+ if(dev) {
+ i = (internal_t*)dev->internal;
+ }
+
reader_t r2;
reader_t*r = &r2;
- reader_init_memreader(r, i->data, i->length);
+ reader_init_memreader(r, data, length);
gfxfontlist_t* fontlist = gfxfontlist_create();
- while(1) {
+ while(r->pos < length) {
unsigned char op = reader_readU8(r);
switch(op) {
case OP_END:
- return;
+ goto finish;
case OP_SETPARAM: {
+ msg("<trace> replay: SETPARAM");
char*key;
char*value;
key = reader_readString(r);
value = reader_readString(r);
- device->setparameter(device, key, value);
+ out->setparameter(out, key, value);
free(key);
free(value);
break;
}
case OP_STARTPAGE: {
+ msg("<trace> replay: STARTPAGE");
U16 width = reader_readU16(r);
U16 height = reader_readU16(r);
- device->startpage(device, width, height);
+ out->startpage(out, width, height);
break;
}
case OP_ENDPAGE: {
+ msg("<trace> replay: ENDPAGE");
break;
}
case OP_FINISH: {
+ msg("<trace> replay: FINISH");
break;
}
case OP_STROKE: {
+ msg("<trace> replay: STROKE");
double width = reader_readDouble(r);
double miterlimit = reader_readDouble(r);
gfxcolor_t color = readColor(r);
- gfx_capType captype = reader_readU8(r);
- gfx_joinType jointtype = reader_readU8(r);
+ gfx_capType captype;
+ int v = reader_readU8(r);
+ switch (v) {
+ case 0: captype = gfx_capButt; break;
+ case 1: captype = gfx_capRound; break;
+ case 2: captype = gfx_capSquare; break;
+ }
+ gfx_joinType jointtype;
+ v = reader_readU8(r);
+ switch (v) {
+ case 0: jointtype = gfx_joinMiter; break;
+ case 1: jointtype = gfx_joinRound; break;
+ case 2: jointtype = gfx_joinBevel; break;
+ }
gfxline_t* line = readLine(r);
- device->stroke(device, line, width, &color, captype, jointtype,miterlimit);
+ out->stroke(out, line, width, &color, captype, jointtype,miterlimit);
gfxline_free(line);
break;
}
case OP_STARTCLIP: {
+ msg("<trace> replay: STARTCLIP");
gfxline_t* line = readLine(r);
- device->startclip(device, line);
+ out->startclip(out, line);
gfxline_free(line);
break;
}
case OP_ENDCLIP: {
- device->endclip(device);
+ msg("<trace> replay: ENDCLIP");
+ out->endclip(out);
break;
}
case OP_FILL: {
+ msg("<trace> replay: FILL");
gfxcolor_t color = readColor(r);
gfxline_t* line = readLine(r);
- device->fill(device, line, &color);
+ out->fill(out, line, &color);
gfxline_free(line);
break;
}
case OP_FILLBITMAP: {
+ msg("<trace> replay: FILLBITMAP");
gfximage_t img = readImage(r);
gfxmatrix_t matrix = readMatrix(r);
gfxline_t* line = readLine(r);
gfxcxform_t* cxform = readCXForm(r);
- device->fillbitmap(device, line, &img, &matrix, cxform);
+ out->fillbitmap(out, line, &img, &matrix, cxform);
+ gfxline_free(line);
if(cxform)
free(cxform);
+ free(img.data);img.data=0;
break;
}
case OP_FILLGRADIENT: {
- gfxgradienttype_t type = reader_readU8(r);
+ msg("<trace> replay: FILLGRADIENT");
+ gfxgradienttype_t type;
+ int v = reader_readU8(r);
+ switch (v) {
+ case 0:
+ type = gfxgradient_radial; break;
+ case 1:
+ type = gfxgradient_linear; break;
+ }
gfxgradient_t*gradient = readGradient(r);
gfxmatrix_t matrix = readMatrix(r);
gfxline_t* line = readLine(r);
- device->fillgradient(device, line, gradient, type, &matrix);
+ out->fillgradient(out, line, gradient, type, &matrix);
break;
}
case OP_DRAWLINK: {
+ msg("<trace> replay: DRAWLINK");
gfxline_t* line = readLine(r);
char* s = reader_readString(r);
- device->drawlink(device,line,s);
+ out->drawlink(out,line,s);
gfxline_free(line);
free(s);
break;
}
case OP_ADDFONT: {
+ msg("<trace> replay: ADDFONT out=%08x(%s)", out, out->name);
gfxfont_t*font = readFont(r);
fontlist = gfxfontlist_addfont(fontlist, font);
- device->addfont(device, font);
+ out->addfont(out, font);
break;
}
case OP_DRAWCHAR: {
char* id = reader_readString(r);
- gfxfont_t*font = gfxfontlist_findfont(fontlist, id);
+ gfxfont_t*font = id?gfxfontlist_findfont(fontlist, id):0;
+ if(i && !font) {
+ font = gfxfontlist_findfont(i->fontlist, id);
+ }
U32 glyph = reader_readU32(r);
+ msg("<trace> replay: DRAWCHAR font=%s glyph=%d", id, glyph);
gfxcolor_t color = readColor(r);
gfxmatrix_t matrix = readMatrix(r);
- device->drawchar(device, font, glyph, &color, &matrix);
+ out->drawchar(out, font, glyph, &color, &matrix);
free(id);
break;
}
}
}
+finish:
+ r->dealloc(r);
+ /* problem: if we just replayed into a device which stores the
+ font for later use (the record device itself is a nice example),
+ then we can't free it yet */
+ //gfxfontlist_free(fontlist, 1);
+ gfxfontlist_free(fontlist, 0);
+}
+void gfxresult_record_replay(gfxresult_t*result, gfxdevice_t*device)
+{
+ internal_result_t*i = (internal_result_t*)result->internal;
+ replay(0, device, i->data, i->length);
}
static void record_result_write(gfxresult_t*r, int filedesc)
internal_result_t*i = (internal_result_t*)r->internal;
write(filedesc, i->data, i->length);
}
-static int record_result_save(gfxresult_t*r, char*filename)
+static int record_result_save(gfxresult_t*r, const char*filename)
{
internal_result_t*i = (internal_result_t*)r->internal;
FILE*fi = fopen(filename, "wb");
fclose(fi);
return 0;
}
-static void*record_result_get(gfxresult_t*r, char*name)
+static void*record_result_get(gfxresult_t*r, const char*name)
{
internal_result_t*i = (internal_result_t*)r->internal;
if(!strcmp(name, "data")) {
static void record_result_destroy(gfxresult_t*r)
{
internal_result_t*i = (internal_result_t*)r->internal;
- free(i->data);i->data = 0;
+ if(i->data) {
+ free(i->data);i->data = 0;
+ }
free(r->internal);r->internal = 0;
free(r);
}
+static unsigned char printable(unsigned char a)
+{
+ if(a<32 || a==127) return '.';
+ else return a;
+}
+
+static void hexdumpMem(unsigned char*data, int len)
+{
+ int t;
+ char ascii[32];
+ for(t=0;t<len;t++) {
+ printf("%02x ", data[t]);
+ ascii[t&15] = printable(data[t]);
+ if((t && ((t&15)==15)) || (t==len-1))
+ {
+ int s,p=((t)&15)+1;
+ ascii[p] = 0;
+ for(s=p-1;s<16;s++) {
+ printf(" ");
+ }
+ printf(" %s\n", ascii);
+ }
+ }
+}
+
+void gfxdevice_record_flush(gfxdevice_t*dev, gfxdevice_t*out)
+{
+ internal_t*i = (internal_t*)dev->internal;
+ if(out) {
+ int len=0;
+ void*data = writer_growmemwrite_memptr(&i->w, &len);
+ replay(dev, out, data, len);
+ }
+ writer_growmemwrite_reset(&i->w);
+}
static gfxresult_t* record_finish(struct _gfxdevice*dev)
{
internal_t*i = (internal_t*)dev->internal;
+ msg("<trace> record: %08x END", dev);
+
+ if(i->cliplevel) {
+ msg("<error> Warning: unclosed cliplevels");
+ }
writer_writeU8(&i->w, OP_END);
+
+ gfxfontlist_free(i->fontlist, 0);
internal_result_t*ir = (internal_result_t*)rfx_calloc(sizeof(gfxresult_t));
ir->data = writer_growmemwrite_getmem(&i->w);
ir->length = i->w.pos;
+ i->w.finish(&i->w);
gfxresult_t*result= (gfxresult_t*)rfx_calloc(sizeof(gfxresult_t));
result->save = record_result_save;
writer_init_growingmemwriter(&i->w, 1048576);
i->fontlist = gfxfontlist_create();
+ i->cliplevel = 0;
dev->setparameter = record_setparameter;
dev->startpage = record_startpage;