printf
Extension ExampleHere is an example showing how to define a printf
handler function.
This program defines a data structure called a Widget
and
defines the ‘%W’ conversion to print information about Widget *
arguments, including the pointer value and the name stored in the data
structure. The ‘%W’ conversion supports the minimum field width and
left-justification options, but ignores everything else.
#include <stdio.h> #include <stdlib.h> #include <printf.h>
typedef struct { char *name; } Widget;
int print_widget (FILE *stream, const struct printf_info *info, const void *const *args) { const Widget *w; char *buffer; int len; /* Format the output into a string. */ w = *((const Widget **) (args[0])); len = asprintf (&buffer, "<Widget %p: %s>", w, w->name); if (len == -1) return -1; /* Pad to the minimum field width and print to the stream. */ len = fprintf (stream, "%*s", (info->left ? -info->width : info->width), buffer); /* Clean up and return. */ free (buffer); return len; } int print_widget_arginfo (const struct printf_info *info, size_t n, int *argtypes) { /* We always take exactly one argument and this is a pointer to the structure.. */ if (n > 0) argtypes[0] = PA_POINTER; return 1; } int main (void) { /* Make a widget to print. */ Widget mywidget; mywidget.name = "mywidget"; /* Register the print function for widgets. */ register_printf_function ('W', print_widget, print_widget_arginfo); /* Now print the widget. */ printf ("|%W|\n", &mywidget); printf ("|%35W|\n", &mywidget); printf ("|%-35W|\n", &mywidget); return 0; }
The output produced by this program looks like:
|<Widget 0xffeffb7c: mywidget>| | <Widget 0xffeffb7c: mywidget>| |<Widget 0xffeffb7c: mywidget> |