/* Copyright (C) 2001-2020 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato, CA 94945, U.S.A., +1(415)492-9861, for further information. */ /* Definitions and interface for bbox (bounding box accumulator) device */ /* Requires gxdevice.h */ #ifndef gdevbbox_INCLUDED # define gdevbbox_INCLUDED #include "gxdevcli.h" /* * This device keeps track of the per-page bounding box, and also optionally * forwards all drawing commands to a target. It can be used either as a * free-standing device or as a component (e.g., by the EPS writer). * * One way to use a bounding box device is simply to include bbox.dev in the * value of DEVICE_DEVSn in the makefile. This produces a free-standing * device named 'bbox' that can be selected in the usual way (-sDEVICE=bbox) * and that prints out the bounding box at each showpage or copypage without * doing any drawing. * * The other way to use a bounding box device is from C code as a component * in a device pipeline. To set up a bounding box device that doesn't do * any drawing: * gx_device_bbox *bdev = * gs_alloc_struct_immovable(some_memory, * gx_device_bbox, &st_device_bbox, * "some identifying string for debugging"); * gx_device_bbox_init(bdev, NULL); * Non-drawing bounding box devices have an "infinite" page size. * * To set up a bounding box device that draws to another device tdev: * gx_device_bbox *bdev = * gs_alloc_struct_immovable(some_memory, * gx_device_bbox, &st_device_bbox, * "some identifying string for debugging"); * gx_device_bbox_init(bdev, tdev); * Bounding box devices that draw to a real device appear to have the * same page size as that device. * * To intercept the end-of-page to call a routine eop of your own, after * setting up the device: * dev_proc_output_page(eop); -- declare a prototype for eop * ... * set_dev_proc(bdev, output_page, eop); * ... * int eop(gx_device *dev, int num_copies, int flush) * { gs_rect bbox; * gx_device_bbox_bbox((gx_device_bbox *)dev, &bbox); * << do whatever you want >> * return gx_forward_output_page(dev, num_copies, flush); * } * * Note that bounding box devices, unlike almost all other forwarding * devices, conditionally propagate the open_device and close_device * calls to their target. By default, they do propagate these calls: * use gx_device_bbox_fwd_open_close to change this if you want. */ /* * Define virtual procedures for managing the accumulated bounding box. * These may be redefined by subclasses, and are also used for compositors. */ typedef struct gx_device_bbox_procs_s { #define dev_bbox_proc_init_box(proc)\ bool proc(void *proc_data) dev_bbox_proc_init_box((*init_box)); #define dev_bbox_proc_get_box(proc)\ void proc(const void *proc_data, gs_fixed_rect *pbox) dev_bbox_proc_get_box((*get_box)); #define dev_bbox_proc_add_rect(proc)\ void proc(void *proc_data, fixed x0, fixed y0, fixed x1, fixed y1) dev_bbox_proc_add_rect((*add_rect)); #define dev_bbox_proc_in_rect(proc)\ bool proc(const void *proc_data, const gs_fixed_rect *pbox) dev_bbox_proc_in_rect((*in_rect)); } gx_device_bbox_procs_t; /* Default implementations */ dev_bbox_proc_init_box(bbox_default_init_box); dev_bbox_proc_get_box(bbox_default_get_box); dev_bbox_proc_add_rect(bbox_default_add_rect); dev_bbox_proc_in_rect(bbox_default_in_rect); #define gx_device_bbox_common\ gx_device_forward_common;\ bool free_standing;\ bool forward_open_close;\ gx_device_bbox_procs_t box_procs;\ void *box_proc_data;\ bool white_is_opaque;\ /* The following are updated dynamically. */\ gs_fixed_rect bbox;\ gx_color_index black, white;\ gx_color_index transparent /* white or gx_no_color_index */ typedef struct gx_device_bbox_s gx_device_bbox; #define gx_device_bbox_common_initial(fs, foc, wio)\ 0 /* target */,\ fs, foc, {0}, 0, wio,\ {{0, 0}, {0, 0}}, gx_no_color_index, gx_no_color_index, gx_no_color_index struct gx_device_bbox_s { gx_device_bbox_common; }; extern_st(st_device_bbox); #define public_st_device_bbox() /* in gdevbbox.c */\ gs_public_st_suffix_add1_final(st_device_bbox, gx_device_bbox,\ "gx_device_bbox", device_bbox_enum_ptrs, device_bbox_reloc_ptrs,\ gx_device_finalize, st_device_forward, box_proc_data) /* Initialize a bounding box device. */ void gx_device_bbox_init(gx_device_bbox * dev, gx_device * target, gs_memory_t *mem); /* Set whether a bounding box device propagates open/close to its target. */ void gx_device_bbox_fwd_open_close(gx_device_bbox * dev, bool forward_open_close); /* Set whether a bounding box device considers white to be opaque. */ void gx_device_bbox_set_white_opaque(gx_device_bbox *dev, bool white_is_opaque); /* Read back the bounding box in 1/72" units. */ int gx_device_bbox_bbox(gx_device_bbox * dev, gs_rect * pbbox); /* Release a bounding box device. */ void gx_device_bbox_release(gx_device_bbox *dev); #endif /* gdevbbox_INCLUDED */