/* VIPS function dispatch. * * J. Cupitt, 8/4/93. */ /* 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 */ #ifndef IM_DISPATCH_H #define IM_DISPATCH_H #ifdef __cplusplus extern "C" { #endif /*__cplusplus*/ #include #include #include /* Type names. You may define your own, but if you use one of these, then * you should use the built-in VIPS type converters. */ #define IM_TYPE_IMAGEVEC "imagevec" /* im_object is ptr to IMAGE[] */ #define IM_TYPE_DOUBLEVEC "doublevec" /* im_object is ptr to double[] */ #define IM_TYPE_INTVEC "intvec" /* im_object is ptr to int[] */ #define IM_TYPE_DOUBLE "double" /* im_object is ptr to double */ #define IM_TYPE_INT "integer" /* 32-bit integer */ #define IM_TYPE_COMPLEX "complex" /* Pair of doubles */ #define IM_TYPE_STRING "string" /* Zero-terminated char array */ #define IM_TYPE_IMASK "intmask" /* Integer mask type */ #define IM_TYPE_DMASK "doublemask" /* Double mask type */ #define IM_TYPE_IMAGE "image" /* IMAGE descriptor */ #define IM_TYPE_DISPLAY "display" /* Display descriptor */ #define IM_TYPE_GVALUE "gvalue" /* GValue wrapper */ #define IM_TYPE_INTERPOLATE "interpolate"/* A subclass of VipsInterpolate */ typedef char *im_arg_type; /* Type of argument id */ /* Internal representation of an argument to an image processing function. */ typedef void *im_object; /* These bits are ored together to make the flags in a type descriptor. * * IM_TYPE_OUTPUT: set to indicate output, otherwise input. If the IM_TYPE_RW * bit is set and IM_TYPE_OUTPUT is not set, both input and output (ie. the * operation side-effects this argument). * * IM_TYPE_ARG: Two ways of making an im_object --- with and without a * command-line string to help you along. Arguments with a string are thing * like IMAGE descriptors, which require a filename to initialise. * Arguments without are things like output numbers, where making the object * simply involves allocating storage. */ typedef enum { IM_TYPE_NONE = 0, /* No flags */ IM_TYPE_OUTPUT = 0x1, /* Output/input object */ IM_TYPE_ARG = 0x2, /* Uses a str arg in construction */ IM_TYPE_RW = 0x4 /* Read-write */ } im_type_flags; /* Initialise, destroy and write objects. The "str" argument to the * init function will not be supplied if this is not an ARG type. The * write function writes to the GString. */ typedef int (*im_init_obj_fn)( im_object *obj, char *str ); typedef int (*im_dest_obj_fn)( im_object obj ); /* Describe a VIPS type. */ typedef struct { im_arg_type type; /* Type of argument */ int size; /* sizeof( im_object repres. ) */ im_type_flags flags; /* Flags */ im_init_obj_fn init; /* Operation functions */ im_dest_obj_fn dest; /* Destroy object */ } im_type_desc; /* Success on an argument. This is called if the image processing function * succeeds and should be used to (for example) print output. */ typedef int (*im_print_obj_fn)( im_object obj ); /* Describe a VIPS command argument. */ typedef struct { char *name; /* eg. "width" */ im_type_desc *desc; /* Type description */ im_print_obj_fn print; /* Print some output objects */ } im_arg_desc; /* Type of VIPS dispatch funtion. */ typedef int (*im_dispatch_fn)( im_object *argv ); /* Maximum size of arg table. */ #define IM_MAX_ARGS (1000) /* Flags for functions. These are for information only, and more may be * added. */ typedef enum { IM_FN_NONE = 0, /* No flags set */ IM_FN_PIO = 0x1, /* Is a partial function */ IM_FN_TRANSFORM = 0x2, /* Performs coordinate transformations */ IM_FN_PTOP = 0x4, /* Point-to-point ... can be done with a LUT */ IM_FN_NOCACHE = 0x8 /* Result should not be cached */ } im_fn_flags; /* Describe a VIPS function. */ typedef struct { char *name; /* eg "im_invert" */ char *desc; /* Description - eg "photographic negative" */ im_fn_flags flags; /* Flags for this function */ im_dispatch_fn disp; /* Dispatch */ int argc; /* Number of args */ im_arg_desc *argv; /* Arg table */ } im_function; /* A set of VIPS functions forming a package. */ typedef struct { char *name; /* Package name (eg "arithmetic") */ int nfuncs; /* Number of functions in package */ im_function **table; /* Array of function descriptors */ } im_package; /* Externs for dispatch. */ /* Struct for mask IO to a file. */ typedef struct { char *name; /* Command-line name in */ void *mask; /* Mask --- DOUBLE or INT */ } im_mask_object; /* Struct for doublevec IO */ typedef struct { int n; /* Vector length */ double *vec; /* Vector */ } im_doublevec_object; /* Struct for intvec IO */ typedef struct { int n; /* Vector length */ int *vec; /* Vector */ } im_intvec_object; /* Struct for imagevec IO */ typedef struct { int n; /* Vector length */ IMAGE **vec; /* Vector */ } im_imagevec_object; /* Built-in VIPS types. */ extern im_type_desc im__input_int; extern im_type_desc im__input_intvec; extern im_type_desc im__input_imask; extern im_type_desc im__output_int; extern im_type_desc im__output_intvec; extern im_type_desc im__output_imask; extern im_type_desc im__input_double; extern im_type_desc im__input_doublevec; extern im_type_desc im__input_dmask; extern im_type_desc im__output_double; extern im_type_desc im__output_doublevec; extern im_type_desc im__output_dmask; extern im_type_desc im__output_dmask_screen; extern im_type_desc im__output_complex; extern im_type_desc im__input_string; extern im_type_desc im__output_string; extern im_type_desc im__input_imagevec; extern im_type_desc im__input_image; extern im_type_desc im__output_image; extern im_type_desc im__rw_image; extern im_type_desc im__input_display; extern im_type_desc im__output_display; extern im_type_desc im__input_gvalue; extern im_type_desc im__output_gvalue; extern im_type_desc im__input_interpolate; /* VIPS print functions. */ int im__iprint( im_object obj ); /* int */ int im__ivprint( im_object obj ); /* intvec */ int im__dprint( im_object obj ); /* double */ int im__dvprint( im_object obj ); /* doublevec */ int im__dmsprint( im_object obj ); /* DOUBLEMASK as stats */ int im__cprint( im_object obj ); /* complex */ int im__sprint( im_object obj ); /* string */ int im__displayprint( im_object obj ); /* im_col_display */ int im__gprint( im_object obj ); /* GValue */ /* Macros for convenient creation. */ #define IM_INPUT_INT( S ) { S, &im__input_int, NULL } #define IM_INPUT_INTVEC( S ) { S, &im__input_intvec, NULL } #define IM_INPUT_IMASK( S ) { S, &im__input_imask, NULL } #define IM_OUTPUT_INT( S ) { S, &im__output_int, im__iprint } #define IM_OUTPUT_INTVEC( S ) { S, &im__output_intvec, im__ivprint } #define IM_OUTPUT_IMASK( S ) { S, &im__output_imask, NULL } #define IM_INPUT_DOUBLE( S ) { S, &im__input_double, NULL } #define IM_INPUT_DOUBLEVEC( S ) { S, &im__input_doublevec, NULL } #define IM_INPUT_DMASK( S ) { S, &im__input_dmask, NULL } #define IM_OUTPUT_DOUBLE( S ) { S, &im__output_double, im__dprint } #define IM_OUTPUT_DOUBLEVEC( S ) { S, &im__output_doublevec, im__dvprint } #define IM_OUTPUT_DMASK( S ) { S, &im__output_dmask, NULL } #define IM_OUTPUT_DMASK_STATS( S ) { S, &im__output_dmask_screen, im__dmsprint } #define IM_OUTPUT_COMPLEX( S ) { S, &im__output_complex, im__cprint } #define IM_INPUT_STRING( S ) { S, &im__input_string, NULL } #define IM_OUTPUT_STRING( S ) { S, &im__output_string, im__sprint } #define IM_INPUT_IMAGE( S ) { S, &im__input_image, NULL } #define IM_INPUT_IMAGEVEC( S ) { S, &im__input_imagevec, NULL } #define IM_OUTPUT_IMAGE( S ) { S, &im__output_image, NULL } #define IM_RW_IMAGE( S ) { S, &im__rw_image, NULL } #define IM_INPUT_DISPLAY( S ) { S, &im__input_display, NULL } #define IM_OUTPUT_DISPLAY( S ) { S, &im__output_display, im__displayprint } #define IM_INPUT_GVALUE( S ) { S, &im__input_gvalue, NULL } #define IM_OUTPUT_GVALUE( S ) { S, &im__output_gvalue, im__gprint } #define IM_INPUT_INTERPOLATE( S ) { S, &im__input_interpolate, NULL } /* Add a plug-in package. */ im_package *im_load_plugin( const char *name ); int im_load_plugins( const char *fmt, ... ) __attribute__((format(printf, 1, 2))); /* Close all plug-ins. */ int im_close_plugins( void ); /* Loop over all loaded packages. */ void *im_map_packages( VipsSListMap2Fn fn, void *a ); /* Convenience functions for finding packages, functions, etc. */ im_function *im_find_function( const char *name ); im_package *im_find_package( const char *name ); im_package *im_package_of_function( const char *name ); /* Allocate space for, and free im_object argument lists. */ int im_free_vargv( im_function *fn, im_object *vargv ); int im_allocate_vargv( im_function *fn, im_object *vargv ); /* Run a VIPS command by name. */ int im_run_command( char *name, int argc, char **argv ); int vips__input_interpolate_init( im_object *obj, char *str ); #ifdef __cplusplus } #endif /*__cplusplus*/ #endif /*IM_DISPATCH_H*/