libvips/tools/vips.c
John Cupitt b085908558 remove vips7 stuff from API
You must now include vips7 support explicitly with

	#include <vips/vips7compat.h>

in your code just after including `vips.h`.

The old vips7 names, such as `Rect`, were starting to cause problems
with other packages like opencv.
2018-05-16 15:08:21 +01:00

1328 lines
30 KiB
C

/* VIPS universal main program.
*
* J. Cupitt, 8/4/93.
* 12/5/06
* - use GOption. g_*_prgname()
* 16/7/06
* - hmm, was broken for function name as argv1 case
* 11/7/06
* - add "all" option to -l
* 14/7/06
* - ignore "--" arguments.
* 2/9/06
* - do less init ... im_init_world() does more now
* 18/8/06
* - use IM_EXEEXT
* 16/10/06
* - add --version
* 17/10/06
* - add --swig
* - cleanups
* - remove --swig again, sigh
* - add throw() decls to C++ to help SWIG
* 14/1/07
* - add --list packages
* 26/2/07
* - add input *VEC arg types to C++ binding
* 17/8/08
* - add --list formats
* 29/11/08
* - add --list interpolators
* 9/2/09
* - and now we just have --list packages/classes/package-name
* 13/11/09
* - drop _f postfixes, drop many postfixes
* 24/6/10
* - less chatty error messages
* - oops, don't rename "copy_set" as "copy_"
* 6/2/12
* - long arg names in decls to help SWIG
* - don't wrap im_remainderconst_vec()
* 31/12/12
* - parse options in two passes (thanks Haida)
* 26/11/17
* - remove throw() decls, they are now deprecated everywhere
*/
/*
This file is part of VIPS.
VIPS is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301 USA
*/
/*
These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk
*/
/*
#define DEBUG
#define DEBUG_FATAL
*/
/* Need to disable these sometimes.
#undef DEBUG_FATAL
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif /*HAVE_CONFIG_H*/
#include <vips/intl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <locale.h>
#include <vips/vips.h>
#include <vips/vips7compat.h>
#include <vips/internal.h>
#ifdef OS_WIN32
#define strcasecmp(a,b) _stricmp(a,b)
#endif
static char *main_option_plugin = NULL;
static gboolean main_option_version;
static void *
list_class( GType type )
{
VipsObjectClass *class = VIPS_OBJECT_CLASS( g_type_class_ref( type ) );
int depth = vips_type_depth( type );
int i;
if( class->deprecated )
return( NULL );
if( VIPS_IS_OPERATION_CLASS( class ) &&
(VIPS_OPERATION_CLASS( class )->flags &
VIPS_OPERATION_DEPRECATED) )
return( NULL );
for( i = 0; i < depth * 2; i++ )
printf( " " );
vips_object_print_summary_class(
VIPS_OBJECT_CLASS( g_type_class_ref( type ) ) );
return( NULL );
}
static void *
test_nickname( GType type, void *data )
{
const char *nickname = (const char *) data;
VipsObjectClass *class;
if( (class = VIPS_OBJECT_CLASS( g_type_class_ref( type ) )) &&
strcmp( class->nickname, nickname ) == 0 )
return( class );
return( NULL );
}
static gboolean
parse_main_option_list( const gchar *option_name, const gchar *value,
gpointer data, GError **error )
{
VipsObjectClass *class;
if( value &&
(class = (VipsObjectClass *) vips_type_map_all(
g_type_from_name( "VipsObject" ),
test_nickname, (void *) value )) ) {
vips_type_map_all( G_TYPE_FROM_CLASS( class ),
(VipsTypeMapFn) list_class, NULL );
}
else if( value ) {
vips_error( g_get_prgname(),
_( "'%s' is not the name of a vips class" ), value );
vips_error_g( error );
return( FALSE );
}
else {
vips_type_map_all( g_type_from_name( "VipsOperation" ),
(VipsTypeMapFn) list_class, NULL );
}
exit( 0 );
}
static GOptionEntry main_option[] = {
{ "list", 'l', G_OPTION_FLAG_OPTIONAL_ARG, G_OPTION_ARG_CALLBACK,
(GOptionArgFunc) parse_main_option_list,
N_( "list objects" ),
N_( "BASE-NAME" ) },
{ "plugin", 'p', 0, G_OPTION_ARG_FILENAME, &main_option_plugin,
N_( "load PLUGIN" ),
N_( "PLUGIN" ) },
{ "version", 'v', 0, G_OPTION_ARG_NONE, &main_option_version,
N_( "print version" ), NULL },
{ NULL }
};
typedef void *(*map_name_fn)( im_function * );
/* Loop over a package.
*/
static void *
map_package( im_package *pack, map_name_fn fn )
{
int i;
void *result;
for( i = 0; i < pack->nfuncs; i++ )
if( (result = fn( pack->table[i] )) )
return( result );
return( NULL );
}
/* Apply a function to a vips operation, or map over a package of operations.
*/
static void *
map_name( const char *name, map_name_fn fn )
{
im_package *pack;
im_function *func;
if( !name || strcmp( name, "all" ) == 0 )
/* Do all packages.
*/
im_map_packages( (VSListMap2Fn) map_package, fn );
else if( (pack = im_find_package( name )) )
/* Do one package.
*/
map_package( pack, fn );
else if( (func = im_find_function( name )) )
/* Do a single function.
*/
fn( func );
else {
vips_error( "map_name",
_( "no package or function \"%s\"" ), name );
return( fn );
}
return( NULL );
}
static void *
list_package( im_package *pack )
{
printf( "%-20s - %d operations\n", pack->name, pack->nfuncs );
return( NULL );
}
static void *
list_function( im_function *func )
{
printf( "%-20s - %s\n", func->name, _( func->desc ) );
return( NULL );
}
static int
print_list( int argc, char **argv )
{
if( !argv[0] || strcmp( argv[0], "packages" ) == 0 )
im_map_packages( (VSListMap2Fn) list_package, NULL );
else if( strcmp( argv[0], "classes" ) == 0 )
vips_type_map_all( g_type_from_name( "VipsObject" ),
(VipsTypeMapFn) list_class, NULL );
else if( g_type_from_name( argv[0] ) &&
g_type_is_a( g_type_from_name( argv[0] ), VIPS_TYPE_OBJECT ) ) {
vips_type_map_all( g_type_from_name( argv[0] ),
(VipsTypeMapFn) list_class, NULL );
}
else {
if( map_name( argv[0], list_function ) )
vips_error_exit( "unknown package \"%s\"", argv[0] );
}
return( 0 );
}
/* Print "ln -s" lines for this package.
*/
static void *
print_links_package( im_package *pack )
{
int i;
for( i = 0; i < pack->nfuncs; i++ )
printf( "rm -f %s" IM_EXEEXT "; "
"ln -s vips" IM_EXEEXT " %s" IM_EXEEXT "\n",
pack->table[i]->name, pack->table[i]->name );
return( NULL );
}
/* Print "ln -s" lines for this package.
*/
static int
print_links( int argc, char **argv )
{
im_map_packages( (VSListMap2Fn) print_links_package, NULL );
return( 0 );
}
/* Does a function have any printing output?
*/
static int
has_print( im_function *fn )
{
int i;
for( i = 0; i < fn->argc; i++ )
if( fn->argv[i].print )
return( -1 );
return( 0 );
}
static int
isvips( const char *name )
{
/* If we're running uninstalled we get the lt- prefix.
*/
if( vips_isprefix( "lt-", name ) )
name += 3;
return( vips_isprefix( "vips", name ) );
}
/* Print a usage string from an im_function descriptor.
*/
static void
usage( im_function *fn )
{
int i;
im_package *pack = im_package_of_function( fn->name );
/* Don't print the prgname if we're being run as a symlink.
*/
fprintf( stderr, "usage: " );
if( isvips( g_get_prgname() ) )
fprintf( stderr, "%s ", g_get_prgname() );
fprintf( stderr, "%s ", fn->name );
/* Print args requiring command-line input.
*/
for( i = 0; i < fn->argc; i++ )
if( fn->argv[i].desc->flags & IM_TYPE_ARG )
fprintf( stderr, "%s ", fn->argv[i].name );
/* Print types of command line args.
*/
fprintf( stderr, "\nwhere:\n" );
for( i = 0; i < fn->argc; i++ )
if( fn->argv[i].desc->flags & IM_TYPE_ARG )
fprintf( stderr, "\t%s is of type \"%s\"\n",
fn->argv[i].name, fn->argv[i].desc->type );
/* Print output print args.
*/
if( has_print( fn ) ) {
fprintf( stderr, "prints:\n" );
for( i = 0; i < fn->argc; i++ )
if( fn->argv[i].print )
fprintf( stderr, "\t%s of type \"%s\"\n",
fn->argv[i].name,
fn->argv[i].desc->type );
}
/* Print description of this function, and package it comes from.
*/
fprintf( stderr, "%s", _( fn->desc ) );
if( pack )
fprintf( stderr, ", from package \"%s\"", pack->name );
fprintf( stderr, "\n" );
/* Print any flags this function has.
*/
fprintf( stderr, "flags: " );
if( fn->flags & IM_FN_PIO )
fprintf( stderr, "(PIO function) " );
else
fprintf( stderr, "(WIO function) " );
if( fn->flags & IM_FN_TRANSFORM )
fprintf( stderr, "(coordinate transformer) " );
else
fprintf( stderr, "(no coordinate transformation) " );
if( fn->flags & IM_FN_PTOP )
fprintf( stderr, "(point-to-point operation) " );
else
fprintf( stderr, "(area operation) " );
if( fn->flags & IM_FN_NOCACHE )
fprintf( stderr, "(nocache operation) " );
else
fprintf( stderr, "(result can be cached) " );
fprintf( stderr, "\n" );
}
/* Convert VIPS type name to C++ type name. NULL for type unsupported by C++
* layer.
*/
static char *
vips2cpp( im_type_desc *ty )
{
int k;
/* VIPS types.
*/
static char *vtypes[] = {
IM_TYPE_DOUBLE,
IM_TYPE_INT,
IM_TYPE_COMPLEX,
IM_TYPE_STRING,
IM_TYPE_IMAGE,
IM_TYPE_IMASK,
IM_TYPE_DMASK,
IM_TYPE_DISPLAY,
IM_TYPE_IMAGEVEC,
IM_TYPE_DOUBLEVEC,
IM_TYPE_INTVEC,
IM_TYPE_INTERPOLATE
};
/* Corresponding C++ types.
*/
static char *ctypes[] = {
"double",
"int",
"std::complex<double>",
"char*",
"VImage",
"VIMask",
"VDMask",
"VDisplay",
"std::vector<VImage>",
"std::vector<double>",
"std::vector<int>",
"char*"
};
for( k = 0; k < IM_NUMBER( vtypes ); k++ )
if( strcmp( ty->type, vtypes[k] ) == 0 )
return( ctypes[k] );
return( NULL );
}
/* Test a function definition for C++ suitability.
*/
static int
is_cppable( im_function *fn )
{
int j;
/* Don't wrap im_remainderconst_vec().
*
* This has been replaced by the saner name im_remainder_vec(). If we
* generate wrappers for both names we get a overloading clash.
*/
if( strcmp( fn->name, "im_remainderconst_vec" ) == 0 )
return( 0 );
/* Check we know all the types.
*/
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
if( !vips2cpp( ty ) )
return( 0 );
}
/* We dont wrap output IMAGEVEC/DOUBLEVEC/INTVEC.
*/
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
if( ty->flags & IM_TYPE_OUTPUT )
if( strcmp( ty->type, IM_TYPE_IMAGEVEC ) == 0 ||
strcmp( ty->type, IM_TYPE_DOUBLEVEC ) == 0 ||
strcmp( ty->type, IM_TYPE_INTVEC ) == 0 )
return( 0 );
}
/* Must be at least one image argument (input or output) ... since we
* get inserted in the VImage class. Other funcs get wrapped by hand.
*/
for( j = 0; j < fn->argc; j++ )
if( strcmp( fn->argv[j].desc->type, IM_TYPE_IMAGE ) == 0 )
break;
if( j == fn->argc )
return( 0 );
return( -1 );
}
/* Search for the first output arg, and the first IMAGE input arg.
*/
static void
find_ioargs( im_function *fn, int *ia, int *oa )
{
int j;
/* Look for first output arg - this will be the result of the
* function.
*/
*oa = -1;
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
if( ty->flags & IM_TYPE_OUTPUT ) {
*oa = j;
break;
}
}
/* Look for first input IMAGE arg. This will become the implicit
* "this" arg.
*/
*ia = -1;
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
if( !(ty->flags & IM_TYPE_OUTPUT) &&
strcmp( ty->type, IM_TYPE_IMAGE ) == 0 ) {
*ia = j;
break;
}
}
}
static gboolean
drop_postfix( char *str, const char *postfix )
{
if( vips_ispostfix( str, postfix ) ) {
str[strlen( str ) - strlen( postfix )] = '\0';
return( TRUE );
}
return( FALSE );
}
/* Turn a VIPS name into a C++ name. Eg. im_lintra_vec becomes lin.
*/
static void
c2cpp_name( const char *in, char *out )
{
static const char *dont_drop[] = {
"_set",
};
static const char *drop[] = {
"_vec",
"const",
"tra",
"set",
"_f"
};
int i;
gboolean changed;
/* Copy, chopping off "im_" prefix.
*/
if( vips_isprefix( "im_", in ) )
strcpy( out, in + 3 );
else
strcpy( out, in );
/* Repeatedly drop postfixes while we can. Stop if we see a dont_drop
* postfix.
*/
do {
gboolean found;
found = FALSE;
for( i = 0; i < IM_NUMBER( dont_drop ); i++ )
if( vips_ispostfix( out, dont_drop[i] ) ) {
found = TRUE;
break;
}
if( found )
break;
changed = FALSE;
for( i = 0; i < IM_NUMBER( drop ); i++ )
changed |= drop_postfix( out, drop[i] );
} while( changed );
}
/* Print prototype for a function (ie. will be followed by code).
*
* Eg.:
* VImage VImage::lin( double a, double b )
*/
static void *
print_cppproto( im_function *fn )
{
int j;
char name[4096];
int oa, ia;
int flg;
/* If it's not cppable, do nothing.
*/
if( !is_cppable( fn ) )
return( NULL );
/* Make C++ name.
*/
c2cpp_name( fn->name, name );
/* Find input and output args.
*/
find_ioargs( fn, &ia, &oa );
/* Print output type.
*/
if( oa == -1 )
printf( "void " );
else
printf( "%s ", vips2cpp( fn->argv[oa].desc ) );
printf( "VImage::%s(", name );
/* Print arg list.
*/
flg = 0;
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
/* Skip ia and oa.
*/
if( j == ia || j == oa )
continue;
/* Print arg type.
*/
if( flg )
printf( ", %s", vips2cpp( ty ) );
else {
printf( " %s", vips2cpp( ty ) );
flg = 1;
}
/* If it's an putput arg, print a "&" to make a reference
* argument.
*/
if( ty->flags & IM_TYPE_OUTPUT )
printf( "&" );
/* Print arg name.
*/
printf( " %s", fn->argv[j].name );
}
/* End of arg list!
*/
if( flg )
printf( " " );
printf( ")\n" );
return( NULL );
}
/* Print cpp decl for a function.
*
* Eg.
* VImage lin( double, double )
*/
static void *
print_cppdecl( im_function *fn )
{
int j;
char name[4096];
int oa, ia;
int flg;
/* If it's not cppable, do nothing.
*/
if( !is_cppable( fn ) )
return( NULL );
/* Make C++ name.
*/
c2cpp_name( fn->name, name );
/* Find input and output args.
*/
find_ioargs( fn, &ia, &oa );
if( ia == -1 )
/* No input image, so make it a static in the class
* declaration.
*/
printf( "static " );
/* Print output type.
*/
if( oa == -1 )
printf( "void " );
else
printf( "%s ", vips2cpp( fn->argv[oa].desc ) );
/* Print function name and start arg list.
*/
printf( "%s(", name );
/* Print arg list.
*/
flg = 0;
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
/* Skip ia and oa.
*/
if( j == ia || j == oa )
continue;
/* Print arg type.
*/
if( flg )
printf( ", %s", vips2cpp( ty ) );
else {
printf( " %s", vips2cpp( ty ) );
flg = 1;
}
/* If it's an putput arg, print a "&" to make a reference
* argument.
*/
if( ty->flags & IM_TYPE_OUTPUT )
printf( "&" );
/* Print arg name.
*
* Prepend the member name to make the arg
* unique. This is important for SWIG since it needs to have
* unique names for %apply.
*/
printf( " %s_%s", name, fn->argv[j].name );
}
/* End of arg list!
*/
if( flg )
printf( " " );
printf( ");\n" );
return( NULL );
}
static void
print_invec( int j, const char *arg,
const char *vips_name, const char *c_name, const char *extract )
{
printf( "\t((%s*) _vec.data(%d))->n = %s.size();\n",
vips_name, j, arg );
printf( "\t((%s*) _vec.data(%d))->vec = new %s[%s.size()];\n",
vips_name, j, c_name, arg );
printf( "\tfor( unsigned int i = 0; i < %s.size(); i++ )\n",
arg );
printf( "\t\t((%s*) _vec.data(%d))->vec[i] = %s[i]%s;\n",
vips_name, j, arg, extract );
}
/* Print the definition for a function.
*/
static void *
print_cppdef( im_function *fn )
{
int j;
int ia, oa;
/* If it's not cppable, do nothing.
*/
if( !is_cppable( fn ) )
return( NULL );
find_ioargs( fn, &ia, &oa );
printf( "// %s: %s\n", fn->name, _( fn->desc ) );
print_cppproto( fn );
printf( "{\n" );
/* Declare the implicit input image.
*/
if( ia != -1 )
printf( "\tVImage %s = *this;\n", fn->argv[ia].name );
/* Declare return value, if any.
*/
if( oa != -1 )
printf( "\t%s %s;\n\n",
vips2cpp( fn->argv[oa].desc ),
fn->argv[oa].name );
/* Declare the arg vector.
*/
printf( "\tVargv _vec( \"%s\" );\n\n", fn->name );
/* Create the input args.
*/
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
/* Images are special - have to init the vector, even
* for output args. Have to translate VImage.
*/
if( strcmp( ty->type, IM_TYPE_IMAGE ) == 0 ) {
printf( "\t_vec.data(%d) = %s.image();\n",
j, fn->argv[j].name );
continue;
}
/* For output masks, we have to set an input filename. Not
* freed, so constant string is OK.
*/
if( (ty->flags & IM_TYPE_OUTPUT) &&
(strcmp( ty->type, IM_TYPE_IMASK ) == 0 ||
strcmp( ty->type, IM_TYPE_DMASK ) == 0) ) {
printf( "\t((im_mask_object*) _vec.data(%d))->name = "
"(char*)\"noname\";\n", j );
continue;
}
/* Skip other output args.
*/
if( ty->flags & IM_TYPE_OUTPUT )
continue;
if( strcmp( ty->type, IM_TYPE_IMASK ) == 0 )
/* Mask types are different - have to use
* im_mask_object.
*/
printf( "\t((im_mask_object*) "
"_vec.data(%d))->mask = %s.mask().iptr;\n",
j, fn->argv[j].name );
else if( strcmp( ty->type, IM_TYPE_DMASK ) == 0 )
printf( "\t((im_mask_object*) "
"_vec.data(%d))->mask = %s.mask().dptr;\n",
j, fn->argv[j].name );
else if( strcmp( ty->type, IM_TYPE_DISPLAY ) == 0 )
/* Display have to use VDisplay.
*/
printf( "\t_vec.data(%d) = %s.disp();\n",
j, fn->argv[j].name );
else if( strcmp( ty->type, IM_TYPE_STRING ) == 0 )
/* Zap input strings directly into _vec.
*/
printf( "\t_vec.data(%d) = (im_object) %s;\n",
j, fn->argv[j].name );
else if( strcmp( ty->type, IM_TYPE_IMAGEVEC ) == 0 )
print_invec( j, fn->argv[j].name,
"im_imagevec_object", "IMAGE *", ".image()" );
else if( strcmp( ty->type, IM_TYPE_DOUBLEVEC ) == 0 )
print_invec( j, fn->argv[j].name,
"im_doublevec_object", "double", "" );
else if( strcmp( ty->type, IM_TYPE_INTVEC ) == 0 )
print_invec( j, fn->argv[j].name,
"im_intvec_object", "int", "" );
else if( strcmp( ty->type, IM_TYPE_INTERPOLATE ) == 0 ) {
printf( "\tif( vips__input_interpolate_init( "
"&_vec.data(%d), %s ) )\n",
j, fn->argv[j].name );
printf( "\t\tverror();\n" );
}
else
/* Just use vips2cpp().
*/
printf( "\t*((%s*) _vec.data(%d)) = %s;\n",
vips2cpp( ty ), j, fn->argv[j].name );
}
/* Call function.
*/
printf( "\t_vec.call();\n" );
/* Extract output args.
*/
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty = fn->argv[j].desc;
/* Skip input args.
*/
if( !(ty->flags & IM_TYPE_OUTPUT) )
continue;
/* Skip images (done on input side, really).
*/
if( strcmp( ty->type, IM_TYPE_IMAGE ) == 0 )
continue;
if( strcmp( ty->type, IM_TYPE_IMASK ) == 0 ||
strcmp( ty->type, IM_TYPE_DMASK ) == 0 )
/* Mask types are different - have to use
* im_mask_object.
*/
printf( "\t%s.embed( (DOUBLEMASK *)((im_mask_object*)"
"_vec.data(%d))->mask );\n",
fn->argv[j].name, j );
else if( strcmp( ty->type, IM_TYPE_STRING ) == 0 )
/* Strings are grabbed out of the vec.
*/
printf( "\t%s = (char*) _vec.data(%d);\n",
fn->argv[j].name, j );
else
/* Just use vips2cpp().
*/
printf( "\t%s = *((%s*)_vec.data(%d));\n",
fn->argv[j].name, vips2cpp( ty ), j );
}
/* Note dependancies if out is an image and this function uses
* PIO.
*/
if( oa != -1 ) {
im_type_desc *ty = fn->argv[oa].desc;
if( strcmp( ty->type, IM_TYPE_IMAGE ) == 0 &&
(fn->flags & IM_FN_PIO) ) {
/* Loop for all input args again ..
*/
for( j = 0; j < fn->argc; j++ ) {
im_type_desc *ty2 = fn->argv[j].desc;
/* Skip output args.
*/
if( ty2->flags & IM_TYPE_OUTPUT )
continue;
/* Input image.
*/
if( strcmp( ty2->type, IM_TYPE_IMAGE ) == 0 )
printf( "\t%s._ref->addref( "
"%s._ref );\n",
fn->argv[oa].name,
fn->argv[j].name );
else if( strcmp( ty2->type, IM_TYPE_IMAGEVEC )
== 0 ) {
/* The out depends on every image in
* the input vector.
*/
printf( "\tfor( unsigned int i = 0; "
"i < %s.size(); i++ )\n",
fn->argv[j].name );
printf( "\t\t%s._ref->addref( "
"%s[i]._ref );\n",
fn->argv[oa].name,
fn->argv[j].name );
}
}
}
}
/* Return result.
*/
if( oa != -1 )
printf( "\n\treturn( %s );\n", fn->argv[oa].name );
printf( "}\n\n" );
return( NULL );
}
/* Print C++ decls for function, package or all.
*/
static int
print_cppdecls( int argc, char **argv )
{
printf( "// this file automatically generated from\n"
"// VIPS library %s\n", vips_version_string() );
if( map_name( argv[0], print_cppdecl ) )
vips_error_exit( NULL );
return( 0 );
}
/* Print C++ bindings for function, package or all.
*/
static int
print_cppdefs( int argc, char **argv )
{
printf( "// this file automatically generated from\n"
"// VIPS library %s\n", vips_version_string() );
if( map_name( argv[0], print_cppdef ) )
vips_error_exit( NULL );
return( 0 );
}
static int
print_help( int argc, char **argv )
{
return( 0 );
}
/* All our built-in actions.
*/
typedef int (*Action)( int argc, char **argv );
typedef struct _ActionEntry {
char *name;
char *description;
GOptionEntry *group;
Action action;
} ActionEntry;
static GOptionEntry empty_options[] = {
{ NULL }
};
static ActionEntry actions[] = {
{ "list", N_( "list classes|packages|all|package-name|operation-name" ),
&empty_options[0], print_list },
{ "cpph", N_( "generate headers for C++ binding" ),
&empty_options[0], print_cppdecls },
{ "cppc", N_( "generate bodies for C++ binding" ),
&empty_options[0], print_cppdefs },
{ "links", N_( "generate links for vips/bin" ),
&empty_options[0], print_links },
{ "help", N_( "list possible actions" ),
&empty_options[0], print_help },
};
static void
parse_options( GOptionContext *context, int *argc, char **argv )
{
char txt[1024];
VipsBuf buf = VIPS_BUF_STATIC( txt );
GError *error = NULL;
int i, j;
#ifdef DEBUG
printf( "parse_options:\n" );
for( i = 0; i < *argc; i++ )
printf( "%d) %s\n", i, argv[i] );
#endif /*DEBUG*/
vips_buf_appendf( &buf, "%7s - %s\n",
"OPER", _( "execute vips operation OPER" ) );
g_option_context_set_summary( context, vips_buf_all( &buf ) );
#ifdef HAVE_G_WIN32_GET_COMMAND_LINE
if( !g_option_context_parse_strv( context, &argv, &error ) )
#else /*!HAVE_G_WIN32_GET_COMMAND_LINE*/
if( !g_option_context_parse( context, argc, &argv, &error ) )
#endif /*HAVE_G_WIN32_GET_COMMAND_LINE*/
{
if( error ) {
fprintf( stderr, "%s\n", error->message );
g_error_free( error );
}
vips_error_exit( NULL );
}
/* On Windows, argc will not have been updated by
* g_option_context_parse_strv().
*/
for( *argc = 0; argv[*argc]; (*argc)++ )
;
/* Remove any "--" argument. If one of our arguments is a negative
* number, the user will need to have added the "--" flag to stop
* GOption parsing. But "--" is still passed down to us and we need to
* ignore it.
*/
for( i = 1; i < *argc; i++ )
if( strcmp( argv[i], "--" ) == 0 ) {
for( j = i; j < *argc; j++ )
argv[j] = argv[j + 1];
*argc -= 1;
}
}
static GOptionGroup *
add_operation_group( GOptionContext *context, VipsOperation *user_data )
{
GOptionGroup *group;
group = g_option_group_new( "operation",
_( "Operation" ), _( "Operation help" ), user_data, NULL );
g_option_group_set_translation_domain( group, GETTEXT_PACKAGE );
g_option_context_add_group( context, group );
return( group );
}
/* VIPS universal main program.
*/
int
main( int argc, char **argv )
{
char *action;
GOptionContext *context;
GOptionGroup *main_group;
GOptionGroup *group;
VipsOperation *operation;
im_function *fn;
int i, j;
gboolean handled;
GError *error = NULL;
if( VIPS_INIT( argv[0] ) )
vips_error_exit( NULL );
textdomain( GETTEXT_PACKAGE );
setlocale( LC_ALL, "" );
/* On Windows, argv is ascii-only .. use this to get a utf-8 version of
* the args.
*/
#ifdef HAVE_G_WIN32_GET_COMMAND_LINE
argv = g_win32_get_command_line();
#endif /*HAVE_G_WIN32_GET_COMMAND_LINE*/
#ifdef DEBUG_FATAL
/* Set masks for debugging ... stop on any problem.
*/
g_log_set_always_fatal(
G_LOG_FLAG_RECURSION |
G_LOG_FLAG_FATAL |
G_LOG_LEVEL_ERROR |
G_LOG_LEVEL_CRITICAL |
G_LOG_LEVEL_WARNING );
#endif /*!DEBUG_FATAL*/
context = g_option_context_new( _( "[ACTION] [OPTIONS] [PARAMETERS] - "
"VIPS driver program" ) );
/* Add and parse the outermost options: the ones this program uses.
* For example, we need
* to be able to spot that in the case of "--plugin ./poop.plg" we
* must remove two args.
*/
main_group = g_option_group_new( NULL, NULL, NULL, NULL, NULL );
g_option_group_add_entries( main_group, main_option );
vips_add_option_entries( main_group );
g_option_group_set_translation_domain( main_group, GETTEXT_PACKAGE );
g_option_context_set_main_group( context, main_group );
/* We add more options later, for example as options to vips8
* operations. Ignore any unknown options in this first parse.
*/
g_option_context_set_ignore_unknown_options( context, TRUE );
/* "vips" with no arguments does "vips --help".
*/
if( argc == 1 ) {
#ifdef HAVE_CONTEXT_GET_HELP
char *help;
help = g_option_context_get_help( context, TRUE, NULL );
printf( "%s", help );
g_free( help );
#else /* !HAVE_CONTEXT_GET_HELP */
printf( "help not available, your glib is too old\n" );
#endif /* HAVE_CONTEXT_GET_HELP */
exit( 0 );
}
/* Also disable help output: we want to be able to display full help
* in a second pass after all options have been created.
*/
g_option_context_set_help_enabled( context, FALSE );
#ifdef HAVE_G_WIN32_GET_COMMAND_LINE
if( !g_option_context_parse_strv( context, &argv, &error ) )
#else /*!HAVE_G_WIN32_GET_COMMAND_LINE*/
if( !g_option_context_parse( context, &argc, &argv, &error ) )
#endif /*HAVE_G_WIN32_GET_COMMAND_LINE*/
{
if( error ) {
fprintf( stderr, "%s\n", error->message );
g_error_free( error );
}
vips_error_exit( NULL );
}
/* On Windows, argc will not have been updated by
* g_option_context_parse_strv().
*/
for( argc = 0; argv[argc]; argc++ )
;
if( main_option_plugin ) {
if( !im_load_plugin( main_option_plugin ) )
vips_error_exit( NULL );
}
if( main_option_version )
printf( "vips-%s\n", vips_version_string() );
/* Reenable help and unknown option detection ready for the second
* option parse.
*/
g_option_context_set_ignore_unknown_options( context, FALSE );
g_option_context_set_help_enabled( context, TRUE );
/* Try to find our action.
*/
handled = FALSE;
action = NULL;
/* Should we try to run the thing we are named as?
*/
if( !isvips( g_get_prgname() ) )
action = argv[0];
if( !action ) {
/* Look for the first non-option argument, if any, and make
* that our action. The parse above will have removed most of
* them, but --help (for example) could still remain.
*/
for( i = 1; i < argc; i++ )
if( argv[i][0] != '-' ) {
action = argv[i];
/* Remove the action from argv.
*/
for( j = i; j < argc; j++ )
argv[j] = argv[j + 1];
argc -= 1;
break;
}
}
/* Could be one of our built-in actions.
*/
if( action )
for( i = 0; i < VIPS_NUMBER( actions ); i++ )
if( strcmp( action, actions[i].name ) == 0 ) {
group = add_operation_group( context, NULL );
g_option_group_add_entries( group,
actions[i].group );
parse_options( context, &argc, argv );
if( actions[i].action( argc - 1, argv + 1 ) )
vips_error_exit( "%s", action );
handled = TRUE;
break;
}
/* Could be a vips7 im_function. We need to test for vips7 first,
* since we don't want to use the vips7 compat wrappers in vips8
* unless we have to. They don't support all args types.
*/
if( action &&
!handled &&
(fn = im_find_function( action )) ) {
if( im_run_command( action, argc - 1, argv + 1 ) ) {
if( argc == 1 )
usage( fn );
else
vips_error_exit( NULL );
}
handled = TRUE;
}
/* im_find_function() set an error msg.
*/
if( action &&
!handled )
vips_error_clear();
/* Could be a vips8 VipsOperation.
*/
if( action &&
!handled &&
(operation = vips_operation_new( action )) ) {
group = add_operation_group( context, operation );
vips_call_options( group, operation );
parse_options( context, &argc, argv );
if( vips_call_argv( operation, argc - 1, argv + 1 ) ) {
if( argc == 1 )
vips_operation_class_print_usage(
VIPS_OPERATION_GET_CLASS( operation ) );
vips_object_unref_outputs( VIPS_OBJECT( operation ) );
g_object_unref( operation );
if( argc == 1 )
/* We don't exit with an error for something
* like "vips fitsload" failing, we use it to
* decide if an optional component has been
* configured. If we've been built without
* fits support, fitsload will fail to find
* the operation and we'll error with "unknown
* action" below.
*/
exit( 0 );
else
vips_error_exit( NULL );
}
vips_object_unref_outputs( VIPS_OBJECT( operation ) );
g_object_unref( operation );
handled = TRUE;
}
/* vips_operation_new() sets an error msg for unknown operation.
*/
if( action &&
!handled )
vips_error_clear();
if( action &&
!handled ) {
vips_error_exit( _( "unknown action \"%s\"" ), action );
}
/* Still not handled? We may not have called parse_options(), so
* --help args may not have been processed.
*/
if( !handled )
parse_options( context, &argc, argv );
g_option_context_free( context );
/* We don't free this on error exit, sadly.
*/
#ifdef HAVE_G_WIN32_GET_COMMAND_LINE
g_strfreev( argv );
#endif /*HAVE_G_WIN32_GET_COMMAND_LINE*/
vips_shutdown();
return( 0 );
}