struct stp_vars *guten_prepare_printer(const stp_printer_t *printer) {
const struct stp_vars *gvars_defaults;
struct stp_vars *gvars;
gvars_defaults = stp_printer_get_defaults(printer);
gvars = stp_vars_create_copy(gvars_defaults);
stp_set_outdata(gvars, stdout);
stp_set_outfunc(gvars, gfunc_print);
stp_set_errdata(gvars, stderr);
stp_set_errfunc(gvars, gfunc_error);
stp_parameter_list_t *list = stp_get_parameter_list(gvars);
size_t count = stp_parameter_list_count(list);
int i;
for(i=0; i<count; i++) {
const stp_parameter_t *par = stp_parameter_list_param(list, i);
stp_parameter_t pardesc;
stp_describe_parameter(gvars, par->name, &pardesc);
if(pardesc.is_mandatory) {
switch(pardesc.p_type) {
case STP_PARAMETER_TYPE_STRING_LIST: {
stp_set_string_parameter(gvars, pardesc.name, pardesc.deflt.str);
break;
}
case STP_PARAMETER_TYPE_INT: {
stp_set_int_parameter(gvars, pardesc.name, pardesc.deflt.integer);
break;
}
case STP_PARAMETER_TYPE_BOOLEAN: {
stp_set_boolean_parameter(gvars, pardesc.name, pardesc.deflt.boolean);
break;
}
case STP_PARAMETER_TYPE_DOUBLE: {
stp_set_float_parameter(gvars, pardesc.name, pardesc.deflt.dbl);
break;
}
case STP_PARAMETER_TYPE_CURVE: {
stp_set_curve_parameter(gvars, pardesc.name, pardesc.deflt.curve);
break;
}
case STP_PARAMETER_TYPE_FILE: {
stp_set_file_parameter(gvars, pardesc.name, pardesc.deflt.str);
break;
}
/* case STP_PARAMETER_TYPE_RAW: {
stp_set_raw_parameter(gvars, pardesc.name, pardesc.deflt.str);
break;
}
*/
case STP_PARAMETER_TYPE_ARRAY: {
stp_set_array_parameter(gvars, pardesc.name, pardesc.deflt.array);
break;
}
case STP_PARAMETER_TYPE_DIMENSION: {
stp_set_dimension_parameter(gvars, pardesc.name, pardesc.deflt.dimension);
break;
}
default: {}
}
}
}
stp_parameter_list_destroy(list);
return gvars;
}
int
main(int argc, char **argv)
{
int i, j, k;
int first_arg = 1;
stp_string_list_t *printer_list = NULL;
stp_parameter_level_t max_level = STP_PARAMETER_LEVEL_ADVANCED4;
if (argc > 1 && !strcmp(argv[1], "-s"))
{
max_level = STP_PARAMETER_LEVEL_BASIC;
first_arg++;
}
stp_init();
if (argc > first_arg)
{
printer_list = stp_string_list_create();
for (i = 1; i < argc; i++)
stp_string_list_add_string(printer_list, argv[i], argv[i]);
}
for (i = 0; i < stp_printer_model_count(); i++)
{
stp_parameter_list_t params;
int nparams;
stp_parameter_t desc;
const stp_printer_t *printer = stp_get_printer_by_index(i);
const char *driver = stp_printer_get_driver(printer);
const char *family = stp_printer_get_family(printer);
stp_vars_t *pv = stp_vars_create_copy(stp_printer_get_defaults(printer));
int tcount = 0;
size_t count;
int printer_is_color = 0;
if (strcmp(family, "ps") == 0 || strcmp(family, "raw") == 0)
continue;
if (printer_list && !stp_string_list_is_present(printer_list, driver))
continue;
/* Set Job Mode to "Job" as this enables the Duplex option */
stp_set_string_parameter(pv, "JobMode", "Job");
stp_describe_parameter(pv, "PrintingMode", &desc);
if (stp_string_list_is_present(desc.bounds.str, "Color"))
printer_is_color = 1;
stp_parameter_description_destroy(&desc);
if (printer_is_color)
stp_set_string_parameter(pv, "PrintingMode", "Color");
else
stp_set_string_parameter(pv, "PrintingMode", "BW");
stp_set_string_parameter(pv, "ChannelBitDepth", "8");
printf("# Printer model %s, long name `%s'\n", driver,
stp_printer_get_long_name(printer));
printf("$families{'%s'} = '%s';\n", driver, family);
printf("$models{'%s'} = '%d';\n", driver, stp_get_model_id(pv));
params = stp_get_parameter_list(pv);
nparams = stp_parameter_list_count(params);
for (k = 0; k < nparams; k++)
{
const stp_parameter_t *p = stp_parameter_list_param(params, k);
if (p->read_only ||
(p->p_level > max_level && strcmp(p->name, "Resolution") != 0) ||
(p->p_class != STP_PARAMETER_CLASS_OUTPUT &&
p->p_class != STP_PARAMETER_CLASS_CORE &&
p->p_class != STP_PARAMETER_CLASS_FEATURE))
continue;
count = 0;
stp_describe_parameter(pv, p->name, &desc);
if (desc.is_active)
{
printf("$longnames{'%s'}{'%s'} = '%s';\n",
driver, desc.name, desc.text);
printf("$param_classes{'%s'}{'%s'} = %d;\n",
driver, desc.name, desc.p_class);
printf("$param_types{'%s'}{'%s'} = %d;\n",
driver, desc.name, desc.p_type);
printf("$param_levels{'%s'}{'%s'} = %d;\n",
driver, desc.name, desc.p_level);
if (desc.p_type == STP_PARAMETER_TYPE_STRING_LIST)
{
count = stp_string_list_count(desc.bounds.str);
if (count > 0)
{
if (desc.is_mandatory)
{
printf("$defaults{'%s'}{'%s'} = '%s';\n",
driver, desc.name, desc.deflt.str);
}
else
{
printf("$defaults{'%s'}{'%s'} = '%s';\n",
driver, desc.name, "None");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, desc.name, "None", "None");
}
for (j = 0; j < count; j++)
{
const stp_param_string_t *param =
stp_string_list_param(desc.bounds.str, j);
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, desc.name, param->name, param->text);
if (strcmp(desc.name, "Resolution") == 0)
{
int x, y;
stp_set_string_parameter(pv, "Resolution",
param->name);
stp_describe_resolution(pv, &x, &y);
if (x > 0 && y > 0)
{
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%d';\n",
driver, "x_resolution", param->name, x);
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%d';\n",
driver, "y_resolution", param->name, y);
}
}
}
}
}
else if (desc.p_type == STP_PARAMETER_TYPE_BOOLEAN)
{
if (desc.is_mandatory)
{
printf("$defaults{'%s'}{'%s'} = '%d';\n",
driver, desc.name, desc.deflt.boolean);
}
else
{
printf("$defaults{'%s'}{'%s'} = '%s';\n",
driver, desc.name, "None");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, desc.name, "None", "None");
}
printf("$stpdata{'%s'}{'%s'}{'False'} = 'False';\n",
driver, desc.name);
printf("$stpdata{'%s'}{'%s'}{'True'} = 'True';\n",
driver, desc.name);
}
else if (desc.p_type == STP_PARAMETER_TYPE_DOUBLE)
{
if (desc.bounds.dbl.lower <= desc.deflt.dbl &&
desc.bounds.dbl.upper >= desc.deflt.dbl)
{
printf("$stp_float_values{'%s'}{'MINVAL'}{'%s'} = %.3f;\n",
driver, desc.name, desc.bounds.dbl.lower);
printf("$stp_float_values{'%s'}{'MAXVAL'}{'%s'} = %.3f;\n",
driver, desc.name, desc.bounds.dbl.upper);
printf("$stp_float_values{'%s'}{'DEFVAL'}{'%s'} = %.3f;\n",
driver, desc.name, desc.deflt.dbl);
/* printf("$stp_float_values{'%s'}{'LONG_NAME'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.text)); */
printf("$stp_float_values{'%s'}{'CATEGORY'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.category));
printf("$stp_float_values{'%s'}{'HELP'}{'%s'} = q(%s);\n",
driver, desc.name, (desc.help ? gettext(desc.help) : "''"));
printf("$stp_float_values{'%s'}{'MANDATORY'}{'%s'} = q(%d);\n",
driver, desc.name, desc.is_mandatory);
}
}
else if (desc.p_type == STP_PARAMETER_TYPE_INT)
{
if (desc.bounds.integer.lower <= desc.deflt.integer &&
desc.bounds.integer.upper >= desc.deflt.integer)
{
printf("$stp_int_values{'%s'}{'MINVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.bounds.integer.lower);
printf("$stp_int_values{'%s'}{'MAXVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.bounds.integer.upper);
printf("$stp_int_values{'%s'}{'DEFVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.deflt.integer);
/* printf("$stp_int_values{'%s'}{'LONG_NAME'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.text)); */
printf("$stp_int_values{'%s'}{'CATEGORY'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.category));
printf("$stp_int_values{'%s'}{'HELP'}{'%s'} = q(%s);\n",
driver, desc.name, (desc.help ? gettext(desc.help) : "''"));
printf("$stp_int_values{'%s'}{'MANDATORY'}{'%s'} = q(%d);\n",
driver, desc.name, desc.is_mandatory);
}
}
else if (desc.p_type == STP_PARAMETER_TYPE_DIMENSION)
{
if (desc.bounds.dimension.lower <= desc.deflt.dimension &&
desc.bounds.dimension.upper >= desc.deflt.dimension)
{
printf("$stp_dimension_values{'%s'}{'MINVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.bounds.dimension.lower);
printf("$stp_dimension_values{'%s'}{'MAXVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.bounds.dimension.upper);
printf("$stp_dimension_values{'%s'}{'DEFVAL'}{'%s'} = %d;\n",
driver, desc.name, desc.deflt.dimension);
/* printf("$stp_dimension_values{'%s'}{'LONG_NAME'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.text)); */
printf("$stp_dimension_values{'%s'}{'CATEGORY'}{'%s'} = '%s';\n",
driver, desc.name, gettext(desc.category));
printf("$stp_dimension_values{'%s'}{'HELP'}{'%s'} = q(%s);\n",
driver, desc.name, (desc.help ? gettext(desc.help) : "''"));
printf("$stp_dimension_values{'%s'}{'MANDATORY'}{'%s'} = q(%d);\n",
driver, desc.name, desc.is_mandatory);
}
}
tcount += count;
}
stp_parameter_description_destroy(&desc);
}
stp_parameter_list_destroy(params);
if (tcount > 0)
{
if (printer_is_color)
{
printf("$defaults{'%s'}{'%s'} = '%s';\n",
driver, "Color", "Color");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, "Color", "Color", "Color");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, "Color", "RawCMYK", "Raw CMYK");
}
else
printf("$defaults{'%s'}{'%s'} = '%s';\n",
driver, "Color", "Grayscale");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, "Color", "Grayscale", "Gray Scale");
printf("$stpdata{'%s'}{'%s'}{'%s'} = '%s';\n",
driver, "Color", "BlackAndWhite", "Black and White");
}
stp_vars_destroy(pv);
}
return 0;
}
static int
do_print(void)
{
int status = 0;
stp_vars_t *v;
const stp_printer_t *the_printer;
int left, right, top, bottom;
int x, y;
int width, height;
int retval;
stp_parameter_list_t params;
int count;
int i;
char tmp[32];
initialize_global_parameters();
global_vars = stp_vars_create();
stp_set_outfunc(global_vars, writefunc);
stp_set_errfunc(global_vars, writefunc);
stp_set_outdata(global_vars, stdout);
stp_set_errdata(global_vars, stderr);
setlocale(LC_ALL, "C");
retval = yyparse();
setlocale(LC_ALL, "");
if (retval)
return retval + 1;
if (!global_did_something)
return 1;
v = stp_vars_create();
the_printer = stp_get_printer_by_driver(global_printer);
if (!the_printer)
{
int j;
fprintf(stderr, "Unknown printer %s\nValid printers are:\n",
global_printer);
for (j = 0; j < stp_printer_model_count(); j++)
{
the_printer = stp_get_printer_by_index(j);
fprintf(stderr, "%-16s%s\n", stp_printer_get_driver(the_printer),
stp_printer_get_long_name(the_printer));
}
return 2;
}
bytes_written = 0;
if (global_output)
{
if (strcmp(global_output, "-") == 0)
output = stdout;
else if (strcmp(global_output, "") == 0)
output = NULL;
else if (global_output[0] == '|')
{
close_output();
write_to_process = 1;
output = popen(global_output+1, "w");
if (! output)
{
fprintf(stderr, "popen '%s' failed: %s\n", global_output, strerror(errno));
output = NULL;
}
free(global_output);
global_output = NULL;
}
else
{
close_output();
output = fopen(global_output, "wb");
if (! output)
{
fprintf(stderr, "Create %s failed: %s\n", global_output, strerror(errno));
output = NULL;
}
free(global_output);
global_output = NULL;
}
}
stp_set_printer_defaults(v, the_printer);
stp_set_outfunc(v, writefunc);
stp_set_errfunc(v, writefunc);
stp_set_outdata(v, output);
stp_set_errdata(v, stderr);
stp_set_string_parameter(v, "InputImageType", global_image_type);
sprintf(tmp, "%d", global_bit_depth);
stp_set_string_parameter(v, "ChannelBitDepth", tmp);
if (strcmp(global_image_type, "Raw") == 0)
{
sprintf(tmp, "%d", global_channel_depth);
stp_set_string_parameter(v, "RawChannels", tmp);
}
stp_set_float_parameter(v, "Density", global_density);
stp_set_string_parameter(v, "Quality", "None");
stp_set_string_parameter(v, "ImageType", "None");
params = stp_get_parameter_list(v);
count = stp_parameter_list_count(params);
for (i = 0; i < count; i++)
{
const stp_parameter_t *p = stp_parameter_list_param(params, i);
if (p->p_type == STP_PARAMETER_TYPE_STRING_LIST)
{
const char *val = stp_get_string_parameter(global_vars, p->name);
if (val && strlen(val) > 0)
{
stp_set_string_parameter(v, p->name, val);
}
}
else if (p->p_type == STP_PARAMETER_TYPE_INT &&
stp_check_int_parameter(global_vars, p->name, STP_PARAMETER_ACTIVE))
{
int val = stp_get_int_parameter(global_vars, p->name);
stp_set_int_parameter(v, p->name, val);
}
else if (p->p_type == STP_PARAMETER_TYPE_BOOLEAN &&
stp_check_boolean_parameter(global_vars, p->name, STP_PARAMETER_ACTIVE))
{
int val = stp_get_boolean_parameter(global_vars, p->name);
stp_set_boolean_parameter(v, p->name, val);
}
else if (p->p_type == STP_PARAMETER_TYPE_CURVE &&
stp_check_curve_parameter(global_vars, p->name, STP_PARAMETER_ACTIVE))
{
const stp_curve_t *val = stp_get_curve_parameter(global_vars, p->name);
stp_set_curve_parameter(v, p->name, val);
}
else if (p->p_type == STP_PARAMETER_TYPE_DOUBLE &&
stp_check_float_parameter(global_vars, p->name, STP_PARAMETER_ACTIVE))
{
double val = stp_get_float_parameter(global_vars, p->name);
stp_set_float_parameter(v, p->name, val);
}
}
stp_set_page_width(v, stp_get_page_width(global_vars));
stp_set_page_height(v, stp_get_page_height(global_vars));
stp_parameter_list_destroy(params);
if (stp_check_string_parameter(v, "PageSize", STP_PARAMETER_ACTIVE) &&
!strcmp(stp_get_string_parameter(v, "PageSize"), "Auto"))
{
stp_parameter_t desc;
stp_describe_parameter(v, "PageSize", &desc);
if (desc.p_type == STP_PARAMETER_TYPE_STRING_LIST)
stp_set_string_parameter(v, "PageSize", desc.deflt.str);
stp_parameter_description_destroy(&desc);
}
stp_set_printer_defaults_soft(v, the_printer);
stp_get_imageable_area(v, &left, &right, &bottom, &top);
stp_describe_resolution(v, &x, &y);
if (x < 0)
x = 300;
if (y < 0)
y = 300;
width = right - left;
height = bottom - top;
switch (global_size_mode)
{
case SIZE_PT:
top += (int) (global_xtop + .5);
left += (int) (global_xleft + .5);
width = (int) (global_hsize + .5);
height = (int) (global_vsize + .5);
break;
case SIZE_IN:
top += (int) ((global_xtop * 72) + .5);
left += (int) ((global_xleft * 72) + .5);
width = (int) ((global_hsize * 72) + .5);
height = (int) ((global_vsize * 72) + .5);
break;
case SIZE_MM:
top += (int) ((global_xtop * 72 / 25.4) + .5);
left += (int) ((global_xleft * 72 / 25.4) + .5);
width = (int) ((global_hsize * 72 / 25.4) + .5);
height = (int) ((global_vsize * 72 / 25.4) + .5);
break;
case SIZE_RELATIVE:
default:
top += height * global_xtop;
left += width * global_xleft;
width *= global_hsize;
height *= global_vsize;
break;
}
stp_set_width(v, width);
stp_set_height(v, height);
#if 0
width = (width / global_steps) * global_steps;
height = (height / global_n_testpatterns) * global_n_testpatterns;
#endif
if (global_steps > width)
global_steps = width;
global_printer_width = width * x / 72;
global_printer_height = height * y / 72;
global_band_height = global_printer_height / global_n_testpatterns;
if (global_band_height == 0)
global_band_height = 1;
stp_set_left(v, left);
stp_set_top(v, top);
stp_merge_printvars(v, stp_printer_get_defaults(the_printer));
if (stp_verify(v))
{
bytes_written = 0;
if (start_job)
{
stp_start_job(v, &theImage);
start_job = 0;
}
if (stp_print(v, &theImage) != 1)
{
if (!global_quiet)
fputs("FAILED", stderr);
failures++;
status = 2;
if (global_halt_on_error)
return status;
}
else if (bytes_written == 0)
{
if (!global_quiet)
fputs("FAILED: No output", stderr);
failures++;
status = 2;
if (global_halt_on_error)
return status;
}
else
passes++;
if (end_job)
{
stp_end_job(v, &theImage);
end_job = 0;
}
}
else
{
if (! global_fail_verify_ok)
{
if (!global_quiet)
fputs("FAILED", stderr);
failures++;
status = 2;
if (global_halt_on_error)
return status;
}
else
{
if (!global_quiet)
fputs("(skipped)", stderr);
skipped++;
}
}
if (!global_quiet)
fputc('\n', stderr);
stp_vars_destroy(v);
stp_free(static_testpatterns);
static_testpatterns = NULL;
return status;
}
