/* Note that this takes a px_state_t, not a px_gstate_t. */
int
px_initgraphics(px_state_t *pxs)
{ gs_state *pgs = pxs->pgs;
px_gstate_reset(pxs->pxgs);
gs_initgraphics(pgs);
gs_setfilladjust(pgs, 0.5, 0.5);
{ gs_point inch;
float dpi;
gs_dtransform(pgs, 72.0, 0.0, &inch);
dpi = fabs(inch.x) + fabs(inch.y);
/* Stroke adjustment leads to anomalies at high resolutions. */
if ( dpi >= 150 )
gs_setstrokeadjust(pgs, false);
/* We need the H-P interpretation of zero-length lines */
/* and of using bevel joins for the segments of flattened curves. */
gs_setdotlength(pgs, 72.0 / 300, true);
}
/* we always clamp coordinates hp does not seem to report
limit checks in paths */
gs_setlimitclamp(pgs, true);
return 0;
}
/* <adjust.x> <adjust.y> .setfilladjust2 - */
static int
zsetfilladjust2(i_ctx_t *i_ctx_p)
{
os_ptr op = osp;
double adjust[2];
int code = num_params(op, 2, adjust);
if (code < 0)
return code;
code = gs_setfilladjust(igs, adjust[0], adjust[1]);
if (code < 0)
return code;
pop(2);
return 0;
}
static int
test10(gs_state * pgs, gs_memory_t * mem)
{
gs_c_param_list list;
gs_param_string nstr, OFstr;
gs_param_float_array PSa;
gs_param_float_array HWRa;
gs_param_int_array HWSa;
int HWSize[2];
float HWResolution[2], PageSize[2];
long MaxBitmap;
int code;
gx_device *dev = gs_currentdevice(pgs);
float xlate_x, xlate_y;
gs_rect cliprect;
gs_c_param_list_write(&list, mem);
code = gs_getdeviceparams(dev, (gs_param_list *) & list);
if (code < 0) {
lprintf1("getdeviceparams failed! code = %d\n", code);
gs_abort(mem);
}
gs_c_param_list_read(&list);
code = param_read_string((gs_param_list *) & list, "Name", &nstr);
if (code < 0) {
lprintf1("reading Name failed! code = %d\n", code);
gs_abort(mem);
}
code = param_read_int_array((gs_param_list *) & list,
"HWSize", &HWSa);
if (code < 0) {
lprintf1("reading HWSize failed! code = %d\n", code);
gs_abort(mem);
}
emprintf3(mem, "HWSize[%d] = [ %d, %d ]\n", HWSa.size,
HWSa.data[0], HWSa.data[1]);
code = param_read_float_array((gs_param_list *) & list,
"HWResolution", &HWRa);
if (code < 0) {
lprintf1("reading Resolution failed! code = %d\n", code);
gs_abort(mem);
}
emprintf3(mem, "HWResolution[%d] = [ %f, %f ]\n", HWRa.size,
HWRa.data[0], HWRa.data[1]);
code = param_read_float_array((gs_param_list *) & list,
"PageSize", &PSa);
if (code < 0) {
lprintf1("reading PageSize failed! code = %d\n", code);
gs_abort(mem);
}
emprintf3(mem, "PageSize[%d] = [ %f, %f ]\n", PSa.size,
PSa.data[0], PSa.data[1]);
code = param_read_long((gs_param_list *) & list,
"MaxBitmap", &MaxBitmap);
if (code < 0) {
lprintf1("reading MaxBitmap failed! code = %d\n", code);
gs_abort(mem);
}
emprintf1(mem, "MaxBitmap = %ld\n", MaxBitmap);
/* Switch to param list functions to "write" */
gs_c_param_list_write(&list, mem);
/* Always set the PageSize. */
PageSize[0] = 72.0 * ypage_wid;
PageSize[1] = 72.0 * xpage_len;
PSa.data = PageSize;
code = param_write_float_array((gs_param_list *) & list,
"PageSize", &PSa);
if (nstr.data[0] != 'v') {
/* Set the OutputFile string file name */
OFstr.persistent = false;
OFstr.data = outfile;
OFstr.size = strlen(outfile);
code = param_write_string((gs_param_list *) & list,
"OutputFile", &OFstr);
if (code < 0) {
lprintf1("setting OutputFile name failed, code=%d\n",
code);
gs_abort(mem);
}
if (nstr.data[0] == 'x') {
HWResolution[0] = HWResolution[1] = 72.0;
} else {
HWResolution[0] = HWResolution[1] = 360.0;
}
HWRa.data = HWResolution;
HWSize[0] = (int)(HWResolution[0] * ypage_wid);
HWSize[1] = (int)(HWResolution[1] * xpage_len);
emprintf3(mem, "\tHWSize = [%d,%d], HWResolution = %f dpi\n",
HWSize[0], HWSize[1], HWResolution[0]);
HWSa.data = HWSize;
code = param_write_float_array((gs_param_list *) & list,
"HWResolution", &HWRa);
code = param_write_int_array((gs_param_list *) & list,
"HWSize", &HWSa);
MaxBitmap = 1000000L;
code = param_write_long((gs_param_list *) & list,
"MaxBitmap", &MaxBitmap);
}
gs_c_param_list_read(&list);
code = gs_putdeviceparams(dev, (gs_param_list *) & list);
emprintf1(mem, "putdeviceparams: code=%d\n", code);
gs_c_param_list_release(&list);
/* note: initgraphics no longer resets the color or color space */
gs_erasepage(pgs);
gs_initgraphics(pgs);
{
gs_color_space *cs = gs_cspace_new_DeviceGray(mem);
gs_setcolorspace(pgs, cs);
gs_setcolorspace(pgs, cs);
gs_decrement(cs, "test10 DeviceGray");
}
gs_clippath(pgs);
gs_pathbbox(pgs, &cliprect);
emprintf4(mem, "\tcliprect = [[%g,%g],[%g,%g]]\n",
cliprect.p.x, cliprect.p.y, cliprect.q.x, cliprect.q.y);
gs_newpath(pgs);
switch (((rotate_value + 270) / 90) & 3) {
default:
case 0: /* 0 = 360 degrees in PS == 90 degrees in printer */
xlate_x = cliprect.p.x;
xlate_y = cliprect.p.y;
break;
case 1: /* 90 degrees in PS = 180 degrees printer */
xlate_x = cliprect.q.x;
xlate_y = cliprect.p.y;
break;
case 2: /* 180 degrees in PS == 270 degrees in printer */
xlate_x = cliprect.q.x;
xlate_y = cliprect.q.y;
break;
case 3: /* 270 degrees in PS == 0 degrees in printer */
xlate_x = cliprect.p.x;
xlate_y = cliprect.q.y;
break;
}
emprintf2(mem, "translate origin to [ %f, %f ]\n", xlate_x, xlate_y);
gs_translate(pgs, xlate_x, xlate_y);
/* further move (before rotate) by user requested amount */
gs_translate(pgs, 72.0 * (float)xmove_origin, 72.0 * (float)ymove_origin);
gs_rotate(pgs, (float)rotate_value + 270.0);
gs_scale(pgs, scale_x * 72.0 / 2032.0,
scale_y * 72.0 / 2032.0);
gs_setlinecap(pgs, gs_cap_butt);
gs_setlinejoin(pgs, gs_join_bevel);
gs_setfilladjust(pgs, 0.0, 0.0);
capture_exec(pgs);
return 0;
}
