/* Copyright (C) 1991, 1995, 1996 Aladdin Enterprises. All rights reserved. This file is part of Aladdin Ghostscript. Aladdin Ghostscript is distributed with NO WARRANTY OF ANY KIND. No author or distributor accepts any responsibility for the consequences of using it, or for whether it serves any particular purpose or works at all, unless he or she says so in writing. Refer to the Aladdin Ghostscript Free Public License (the "License") for full details. Every copy of Aladdin Ghostscript must include a copy of the License, normally in a plain ASCII text file named PUBLIC. The License grants you the right to copy, modify and redistribute Aladdin Ghostscript, but only under certain conditions described in the License. Among other things, the License requires that the copyright notice and this notice be preserved on all copies. */ /* gxcpath.c */ /* Implementation of clipping paths */ #include "gx.h" #include "gserrors.h" #include "gsstruct.h" #include "gsutil.h" #include "gxdevice.h" #include "gxfixed.h" #include "gzpath.h" #include "gzcpath.h" /* Imported from gxacpath.c */ extern int gx_cpath_intersect_slow(P4(gs_state *, gx_clip_path *, gx_path *, int)); /* Forward references */ private void gx_clip_list_from_rectangle(P2(gx_clip_list *, gs_fixed_rect *)); private int gx_clip_list_add_to_path(P2(gx_clip_list *, gx_path *)); /* Structure types */ public_st_clip_rect(); private_st_clip_list(); public_st_clip_path(); public_st_device_clip(); /* GC procedures for gx_clip_path */ #define cptr ((gx_clip_path *)vptr) private ENUM_PTRS_BEGIN(clip_path_enum_ptrs) ; if ( index < st_clip_list_max_ptrs ) { gs_ptr_type_t ret = clip_list_enum_ptrs(&cptr->list, sizeof(cptr->list), index, pep); if ( ret == 0 ) /* don't stop early */ ret = ptr_struct_type, *pep = 0; return ret; } return (*st_path.enum_ptrs)(&cptr->path, sizeof(cptr->path), index - st_clip_list_max_ptrs, pep); ENUM_PTRS_END private RELOC_PTRS_BEGIN(clip_path_reloc_ptrs) { clip_list_reloc_ptrs(&cptr->list, sizeof(gx_clip_list), gcst); (*st_path.reloc_ptrs)(&cptr->path, sizeof(gx_path), gcst); } RELOC_PTRS_END #undef cptr /* GC procedures for gx_device_clip */ #define cptr ((gx_device_clip *)vptr) private ENUM_PTRS_BEGIN(device_clip_enum_ptrs) { if ( index < st_clip_list_max_ptrs + 1 ) return clip_list_enum_ptrs(&cptr->list, sizeof(gx_clip_list), index - 1, pep); return (*st_device_forward.enum_ptrs)(vptr, sizeof(gx_device_forward), index - (st_clip_list_max_ptrs + 1), pep); } case 0: *pep = (cptr->current == &cptr->list.single ? NULL : (void *)cptr->current); break; ENUM_PTRS_END private RELOC_PTRS_BEGIN(device_clip_reloc_ptrs) { if ( cptr->current == &cptr->list.single ) cptr->current = &((gx_device_clip *)gs_reloc_struct_ptr(vptr, gcst))->list.single; else RELOC_PTR(gx_device_clip, current); clip_list_reloc_ptrs(&cptr->list, sizeof(gx_clip_list), gcst); (*st_device_forward.reloc_ptrs)(vptr, sizeof(gx_device_forward), gcst); } RELOC_PTRS_END #undef cptr /* Define an empty clip list. */ private const gx_clip_list clip_list_empty = { { 0, 0, min_int, max_int, 0, 0 }, 0, 0, 0, 0 /*false*/ }; /* Debugging */ #ifdef DEBUG /* Validate a clipping path. */ bool /* only exported for gxacpath.c */ clip_list_validate(const gx_clip_list *clp) { if ( clp->count <= 1 ) return (clp->head == 0 && clp->tail == 0 && clp->single.next == 0 && clp->single.prev == 0); else { const gx_clip_rect *prev = clp->head; const gx_clip_rect *ptr; bool ok = true; while ( (ptr = prev->next) != 0 ) { if ( ptr->ymin > ptr->ymax || ptr->xmin > ptr->xmax || !(ptr->ymin >= prev->ymax || (ptr->ymin == prev->ymin && ptr->ymax == prev->ymax && ptr->xmin >= prev->xmax)) || ptr->prev != prev ) { clip_rect_print('q', "WRONG:", ptr); ok = false; } prev = ptr; } return ok && prev == clp->tail; } } #endif /* ------ Clipping path accessing ------ */ /* Return the path of a clipping path. */ int gx_cpath_path(gx_clip_path *pcpath, gx_path *ppath) { if ( !pcpath->segments_valid ) { int code = gx_clip_list_add_to_path(&pcpath->list, &pcpath->path); if ( code < 0 ) return code; pcpath->segments_valid = 1; } *ppath = pcpath->path; return 0; } /* Return the inner and outer check rectangles for a clipping path. */ /* Return true iff the path is a rectangle. */ /* Note that these must return something strange if we are using */ /* outside clipping. */ bool gx_cpath_inner_box(const gx_clip_path *pcpath, gs_fixed_rect *pbox) { if ( pcpath->list.outside ) { pbox->p.x = pbox->p.y = pbox->q.x = pbox->q.y = 0; return false; } else { *pbox = pcpath->inner_box; return clip_list_is_rectangle(&pcpath->list); } } bool gx_cpath_outer_box(const gx_clip_path *pcpath, gs_fixed_rect *pbox) { if ( pcpath->list.outside ) { pbox->p.x = pbox->p.y = min_fixed; pbox->q.x = pbox->q.y = max_fixed; return false; } else { *pbox = pcpath->outer_box; return clip_list_is_rectangle(&pcpath->list); } } /* Test if a clipping path includes a rectangle. */ /* The rectangle need not be oriented correctly, i.e. x0 > x1 is OK. */ int gx_cpath_includes_rectangle(register const gx_clip_path *pcpath, fixed x0, fixed y0, fixed x1, fixed y1) { return (x0 <= x1 ? (pcpath->inner_box.p.x <= x0 && x1 <= pcpath->inner_box.q.x) : (pcpath->inner_box.p.x <= x1 && x0 <= pcpath->inner_box.q.x)) && (y0 <= y1 ? (pcpath->inner_box.p.y <= y0 && y1 <= pcpath->inner_box.q.y) : (pcpath->inner_box.p.y <= y1 && y0 <= pcpath->inner_box.q.y)); } /* Set the current outsideness of a clipping path. */ int gx_cpath_set_outside(gx_clip_path *pcpath, bool outside) { if ( outside != pcpath->list.outside ) { pcpath->id = gs_next_ids(1); /* path changed => change id */ pcpath->list.outside = outside; } return 0; } /* Return the current outsideness of a clipping path. */ int gx_cpath_is_outside(const gx_clip_path *pcpath) { return pcpath->list.outside; } /* Release a clipping path. */ void gx_cpath_release(gx_clip_path *pcpath) { if ( !pcpath->shares_list ) gx_clip_list_free(&pcpath->list, pcpath->path.memory); gx_path_release(&pcpath->path); } /* Share a clipping path. */ void gx_cpath_share(gx_clip_path *pcpath) { gx_path_share(&pcpath->path); pcpath->shares_list = 1; } /* Set the outer clipping box to the path bounding box, */ /* expanded to pixel boundaries. */ void gx_cpath_set_outer_box(gx_clip_path *pcpath) { pcpath->outer_box.p.x = fixed_floor(pcpath->path.bbox.p.x); pcpath->outer_box.p.y = fixed_floor(pcpath->path.bbox.p.y); pcpath->outer_box.q.x = fixed_ceiling(pcpath->path.bbox.q.x); pcpath->outer_box.q.y = fixed_ceiling(pcpath->path.bbox.q.y); } /* ------ Clipping path setting ------ */ /* Initialize a clipping path. */ int gx_cpath_init(gx_clip_path *pcpath, gs_memory_t *mem) { static /*const*/ gs_fixed_rect null_rect = { { 0, 0 }, { 0, 0 } }; return gx_cpath_from_rectangle(pcpath, &null_rect, mem); /* does a gx_path_init */ } /* Create a rectangular clipping path. */ /* The supplied rectangle may not be oriented correctly, */ /* but it will be oriented correctly upon return. */ int gx_cpath_from_rectangle(gx_clip_path *pcpath, gs_fixed_rect *pbox, gs_memory_t *mem) { gx_clip_list_from_rectangle(&pcpath->list, pbox); pcpath->inner_box = *pbox; pcpath->segments_valid = 0; pcpath->shares_list = 0; gx_path_init(&pcpath->path, mem); pcpath->path.bbox = *pbox; gx_cpath_set_outer_box(pcpath); pcpath->id = gs_next_ids(1); /* path changed => change id */ return 0; } /* Intersect a new clipping path with an old one. */ /* Note that it may overwrite its path argument; return 1 in this case, */ /* otherwise 0 for success, <0 for failure as usual. */ int gx_cpath_intersect(gs_state *pgs, gx_clip_path *pcpath, gx_path *ppath, int rule) { gs_fixed_rect old_box, new_box; int code; if ( gx_cpath_inner_box(pcpath, &old_box) && gx_path_is_rectangle(ppath, &new_box) ) { bool changed = false; bool outside = pcpath->list.outside; /* Intersect the two rectangles if necessary. */ if ( old_box.p.x > new_box.p.x ) new_box.p.x = old_box.p.x, changed = true; if ( old_box.p.y > new_box.p.y ) new_box.p.y = old_box.p.y, changed = true; if ( old_box.q.x < new_box.q.x ) new_box.q.x = old_box.q.x, changed = true; if ( old_box.q.y < new_box.q.y ) new_box.q.y = old_box.q.y, changed = true; if ( changed ) { /* Store the new rectangle back into the new path. */ register segment *pseg = (segment *)ppath->first_subpath; #define set_pt(pqx,pqy)\ pseg->pt.x = new_box.pqx.x, pseg->pt.y = new_box.pqy.y set_pt(p, p); pseg = pseg->next; set_pt(q, p); pseg = pseg->next; set_pt(q, q); pseg = pseg->next; set_pt(p, q); pseg = pseg->next; if ( pseg != 0 ) /* might be an open rectangle */ set_pt(p, p); #undef set_pt } ppath->bbox = new_box; gx_clip_list_from_rectangle(&pcpath->list, &new_box); pcpath->list.outside = outside; pcpath->inner_box = new_box; pcpath->path = *ppath; gx_cpath_set_outer_box(pcpath); pcpath->segments_valid = 1; code = 1; pcpath->id = gs_next_ids(1); /* path changed => change id */ } else { /* Not a rectangle. Intersect the slow way. */ code = gx_cpath_intersect_slow(pgs, pcpath, ppath, rule); } return code; } /* Scale a clipping path by a power of 2. */ int gx_cpath_scale_exp2(gx_clip_path *pcpath, int log2_scale_x, int log2_scale_y) { int code = gx_path_scale_exp2(&pcpath->path, log2_scale_x, log2_scale_y); gx_clip_rect *pr; if ( code < 0 ) return code; /* Scale the fixed entries. */ gx_rect_scale_exp2(&pcpath->inner_box, log2_scale_x, log2_scale_y); gx_rect_scale_exp2(&pcpath->outer_box, log2_scale_x, log2_scale_y); /* Scale the clipping list. */ pr = pcpath->list.head; if ( pr == 0 ) pr = &pcpath->list.single; for ( ; pr != 0; pr = pr->next ) if ( pr != pcpath->list.head && pr != pcpath->list.tail ) { #define scale_v(v, s)\ if ( pr->v != min_int && pr->v != max_int )\ pr->v = (s >= 0 ? pr->v << s : pr->v >> -s) scale_v(xmin, log2_scale_x); scale_v(xmax, log2_scale_x); scale_v(ymin, log2_scale_y); scale_v(ymax, log2_scale_y); #undef scale_v } pcpath->id = gs_next_ids(1); /* path changed => change id */ return 0; } /* ------ Clipping list routines ------ */ /* Initialize a clip list. */ void gx_clip_list_init(gx_clip_list *clp) { *clp = clip_list_empty; } /* Initialize a clip list to a rectangle. */ /* The supplied rectangle may not be oriented correctly, */ /* but it will be oriented correctly upon return. */ private void gx_clip_list_from_rectangle(register gx_clip_list *clp, register gs_fixed_rect *rp) { gx_clip_list_init(clp); if ( rp->p.x > rp->q.x ) { fixed t = rp->p.x; rp->p.x = rp->q.x; rp->q.x = t; } if ( rp->p.y > rp->q.y ) { fixed t = rp->p.y; rp->p.y = rp->q.y; rp->q.y = t; } clp->single.xmin = fixed2int_var(rp->p.x); clp->single.ymin = fixed2int_var(rp->p.y); clp->single.xmax = fixed2int_var_ceiling(rp->q.x); clp->single.ymax = fixed2int_var_ceiling(rp->q.y); clp->count = 1; clp->outside = false; } /* Add a clip list to a path. */ /* The current implementation is very inefficient. */ private int gx_clip_list_add_to_path(gx_clip_list *clp, gx_path *ppath) { const gx_clip_rect *rp; int code = -1; for ( rp = (clp->count <= 1 ? &clp->single : clp->head); rp != 0; rp = rp->next ) { if ( rp->xmin < rp->xmax && rp->ymin < rp->ymax ) { code = gx_path_add_rectangle(ppath, int2fixed(rp->xmin), int2fixed(rp->ymin), int2fixed(rp->xmax), int2fixed(rp->ymax)); if ( code < 0 ) return code; } } if ( code < 0 ) { /* We didn't have any rectangles. */ code = gx_path_add_point(ppath, fixed_0, fixed_0); } return code; } /* Free a clip list. */ void gx_clip_list_free(gx_clip_list *clp, gs_memory_t *mem) { gx_clip_rect *rp = clp->tail; while ( rp != 0 ) { gx_clip_rect *prev = rp->prev; gs_free_object(mem, rp, "gx_clip_list_free"); rp = prev; } gx_clip_list_init(clp); } /* ------ Rectangle list clipper ------ */ /* Device for clipping with a region. */ /* We forward non-drawing operations, but we must be sure to intercept */ /* all drawing operations. */ private dev_proc_open_device(clip_open); private dev_proc_fill_rectangle(clip_fill_rectangle); private dev_proc_copy_mono(clip_copy_mono); private dev_proc_copy_color(clip_copy_color); private dev_proc_get_bits(clip_get_bits); private dev_proc_copy_alpha(clip_copy_alpha); private dev_proc_fill_mask(clip_fill_mask); private dev_proc_strip_tile_rectangle(clip_strip_tile_rectangle); private dev_proc_strip_copy_rop(clip_strip_copy_rop); /* The device descriptor. */ private const gx_device_clip gs_clip_device = { std_device_std_body(gx_device_clip, 0, "clipper", 0, 0, 1, 1), { clip_open, gx_forward_get_initial_matrix, gx_default_sync_output, gx_default_output_page, gx_default_close_device, gx_forward_map_rgb_color, gx_forward_map_color_rgb, clip_fill_rectangle, gx_default_tile_rectangle, clip_copy_mono, clip_copy_color, gx_default_draw_line, clip_get_bits, gx_forward_get_params, gx_forward_put_params, gx_forward_map_cmyk_color, gx_forward_get_xfont_procs, gx_forward_get_xfont_device, gx_forward_map_rgb_alpha_color, gx_forward_get_page_device, gx_forward_get_alpha_bits, clip_copy_alpha, gx_forward_get_band, gx_default_copy_rop, gx_default_fill_path, gx_default_stroke_path, clip_fill_mask, gx_default_fill_trapezoid, gx_default_fill_parallelogram, gx_default_fill_triangle, gx_default_draw_thin_line, gx_default_begin_image, gx_default_image_data, gx_default_end_image, clip_strip_tile_rectangle, clip_strip_copy_rop } }; #define rdev ((gx_device_clip *)dev) /* Make a clipping device. */ void gx_make_clip_translate_device(gx_device_clip *dev, void *container, const gx_clip_list *list, int tx, int ty) { *dev = gs_clip_device; dev->list = *list; dev->translation.x = tx; dev->translation.y = ty; } void gx_make_clip_path_device(gx_device_clip *dev, const gx_clip_path *pcpath) { gx_make_clip_device(dev, NULL, &pcpath->list); } /* Declare and initialize the cursor variables. */ #ifdef DEBUG private ulong clip_loops, clip_in, clip_down, clip_up, clip_x, clip_no_x; private uint clip_interval = 100; # define inc(v) v++ # define print_clip()\ if ( clip_loops % clip_interval == 0 )\ if_debug10('q', "[q]rect=(%d,%d),(%d,%d)\n loops=%ld in=%ld down=%ld up=%ld x=%ld no_x=%ld\n",\ x, y, x + w, y + h,\ clip_loops, clip_in, clip_down, clip_up, clip_x, clip_no_x) #else # define inc(v) discard(0) # define print_clip() DO_NOTHING #endif #define DECLARE_CLIP\ register gx_clip_rect *rptr = rdev->current;\ gx_device *tdev = rdev->target;\ bool outside = rdev->list.outside; /* Translate the supplied coordinates. */ #define TRANSLATE_CLIP\ x += rdev->translation.x;\ y += rdev->translation.y; /* Check whether the rectangle x,y,w,h falls within the current entry. */ #define xywh_is_in_ryptr()\ (!outside &&\ y >= rptr->ymin && y + h <= rptr->ymax &&\ x >= rptr->xmin && x + w <= rptr->xmax) #ifdef DEBUG # define xywh_in_ryptr() (xywh_is_in_ryptr() ? (inc(clip_in), 1) : 0) #else # define xywh_in_ryptr() xywh_is_in_ryptr() #endif /* * Warp the cursor forward or backward to the first rectangle row that * could include a given y value. Assumes rptr is set, and updates it. * Specifically, after warp_cursor, either rptr == 0 (if the y value is * greater than all y values in the list), or y < rptr->ymax and either * rptr->prev == 0 or y >= rptr->prev->ymax. Note that y <= rptr->ymin * is possible. * * In the first case below, the while loop is safe because if there is * more than one rectangle, there is a 'stopper' at the end of the list. */ #define warp_cursor(y)\ if ( (y) >= rptr->ymax )\ { if ( (rptr = rptr->next) != 0 )\ while ( inc(clip_up), (y) >= rptr->ymax ) rptr = rptr->next;\ }\ else while ( rptr->prev != 0 && (y) < rptr->prev->ymax )\ { inc(clip_down); rptr = rptr->prev; } /* * Enumerate the rectangles of the x,w,y,h argument that fall within * the clipping region. Usage: * DO_CLIP(adjust for yc > yp if necessary, * process(xc, yc, xec, yec) [must be an expression]) */ #define DO_CLIP(adjust_for_y, process_rectangle)\ if ( w <= 0 || h <= 0 ) return 0;\ inc(clip_loops);\ { const int xe = x + w, ye = y + h;\ int xc, xec, yc, yec, yp, yep;\ int code;\ warp_cursor(y);\ if ( rptr == 0 || (yc = rptr->ymin) >= ye )\ return (outside ? (xc = x, xec = xe, yc = y, yec = ye,\ process_rectangle) : 0);\ rdev->current = rptr;\ if ( yc < y ) yc = y;\ yp = y;\ if ( outside )\ { for ( yep = y; ; )\ { const int ymax = rptr->ymax;\ xc = x;\ if ( yc > yep )\ { yec = yc, yc = yep;\ adjust_for_y;\ xec = xe;\ code = process_rectangle;\ if ( code < 0 ) return code;\ yp = yep;\ yc = yec;\ adjust_for_y;\ }\ yec = min(ymax, ye);\ do \ { xec = rptr->xmin;\ if ( xec > xc )\ { if ( xec > xe ) xec = xe;\ code = process_rectangle;\ if ( code < 0 ) return code;\ xc = rptr->xmax;\ if ( xc >= xe ) xc = max_int;\ }\ }\ while ( (rptr = rptr->next) != 0 && rptr->ymax == ymax );\ if ( xc < xe )\ { xec = xe;\ code = process_rectangle;\ if ( code < 0 ) return code;\ }\ yp = yc;\ yep = yec;\ if ( rptr == 0 || (yc = rptr->ymin) >= ye ) break;\ }\ if ( yep < ye )\ { xc = x, xec = xe, yc = yep, yec = ye;\ code = process_rectangle;\ if ( code < 0 ) return code;\ }\ }\ else \ for ( ; ; )\ { const int ymax = rptr->ymax;\ yec = min(ymax, ye);\ if ( yc > yp ) adjust_for_y;\ if_debug2('Q', "[Q]yc=%d yec=%d\n", yc, yec);\ do \ { xc = rptr->xmin;\ xec = rptr->xmax;\ if ( xc < x ) xc = x;\ if ( xec > xe ) xec = xe;\ if ( xec > xc )\ { clip_rect_print('Q', "match", rptr);\ if_debug2('Q', "[Q]xc=%d xec=%d\n", xc, xec);\ inc(clip_x);\ code = process_rectangle;\ if ( code < 0 ) return code;\ }\ else inc(clip_no_x);\ }\ while ( (rptr = rptr->next) != 0 && rptr->ymax == ymax );\ if ( rptr == 0 || (yec = rptr->ymin) >= ye ) break;\ yp = yc;\ yc = yec;\ }\ print_clip();\ } /* Open a clipping device */ private int clip_open(register gx_device *dev) { gx_device *tdev = rdev->target; /* Initialize the cursor. */ rdev->current = (rdev->list.head == 0 ? &rdev->list.single : rdev->list.head); rdev->color_info = tdev->color_info; return 0; } /* Fill a rectangle */ private int clip_fill_rectangle(gx_device *dev, int x, int y, int w, int h, gx_color_index color) { DECLARE_CLIP dev_proc_fill_rectangle((*fill)) = dev_proc(tdev, fill_rectangle); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*fill)(tdev, x, y, w, h, color); DO_CLIP(DO_NOTHING, (*fill)(tdev, xc, yc, xec - xc, yec - yc, color)) return 0; } /* Copy a monochrome rectangle */ private int clip_copy_mono(gx_device *dev, const byte *data, int sourcex, int raster, gx_bitmap_id id, int x, int y, int w, int h, gx_color_index color0, gx_color_index color1) { DECLARE_CLIP dev_proc_copy_mono((*copy)) = dev_proc(tdev, copy_mono); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*copy)(tdev, data, sourcex, raster, id, x, y, w, h, color0, color1); DO_CLIP(data += (yc - yp) * raster, (*copy)(tdev, data, sourcex + xc - x, raster, gx_no_bitmap_id, xc, yc, xec - xc, yec - yc, color0, color1)) return 0; } /* Copy a color rectangle */ private int clip_copy_color(gx_device *dev, const byte *data, int sourcex, int raster, gx_bitmap_id id, int x, int y, int w, int h) { DECLARE_CLIP dev_proc_copy_color((*copy)) = dev_proc(tdev, copy_color); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*copy)(tdev, data, sourcex, raster, id, x, y, w, h); DO_CLIP(data += (yc - yp) * raster, (*copy)(tdev, data, sourcex + xc - x, raster, gx_no_bitmap_id, xc, yc, xec - xc, yec - yc)) return 0; } /* Copy a rectangle with alpha */ private int clip_copy_alpha(gx_device *dev, const byte *data, int sourcex, int raster, gx_bitmap_id id, int x, int y, int w, int h, gx_color_index color, int depth) { DECLARE_CLIP dev_proc_copy_alpha((*copy)) = dev_proc(tdev, copy_alpha); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*copy)(tdev, data, sourcex, raster, id, x, y, w, h, color, depth); DO_CLIP(data += (yc - yp) * raster, (*copy)(tdev, data, sourcex + xc - x, raster, gx_no_bitmap_id, xc, yc, xec - xc, yec - yc, color, depth)) return 0; } /* Fill a region defined by a mask. */ private int clip_fill_mask(gx_device *dev, const byte *data, int sourcex, int raster, gx_bitmap_id id, int x, int y, int w, int h, const gx_drawing_color *pdcolor, int depth, gs_logical_operation_t lop, const gx_clip_path *pcpath) { DECLARE_CLIP dev_proc_fill_mask((*fill)) = dev_proc(tdev, fill_mask); if ( pcpath != 0 ) return gx_default_fill_mask(dev, data, sourcex, raster, id, x, y, w, h, pdcolor, depth, lop, pcpath); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*fill)(tdev, data, sourcex, raster, id, x, y, w, h, pdcolor, depth, lop, NULL); DO_CLIP(data += (yc - yp) * raster, (*fill)(tdev, data, sourcex + xc - x, raster, gx_no_bitmap_id, xc, yc, xec - xc, yec - yc, pdcolor, depth, lop, NULL)) return 0; } /* Get bits back from the device. */ private int clip_get_bits(gx_device *dev, int y, byte *data, byte **actual_data) { gx_device *tdev = rdev->target; return (*dev_proc(tdev, get_bits))(tdev, y - rdev->translation.y, data, actual_data); } /* Strip-tile a rectangle. */ private int clip_strip_tile_rectangle(gx_device *dev, const gx_strip_bitmap *tiles, int x, int y, int w, int h, gx_color_index color0, gx_color_index color1, int phase_x, int phase_y) { DECLARE_CLIP dev_proc_strip_tile_rectangle((*fill)) = dev_proc(tdev, strip_tile_rectangle); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*fill)(tdev, tiles, x, y, w, h, color0, color1, phase_x, phase_y); DO_CLIP(DO_NOTHING, (*fill)(tdev, tiles, xc, yc, xec - xc, yec - yc, color0, color1, phase_x, phase_y)) return 0; } /* Copy a rectangle with RasterOp and strip texture. */ private int clip_strip_copy_rop(gx_device *dev, const byte *sdata, int sourcex, uint raster, gx_bitmap_id id, const gx_color_index *scolors, const gx_strip_bitmap *textures, const gx_color_index *tcolors, int x, int y, int w, int h, int phase_x, int phase_y, gs_logical_operation_t lop) { DECLARE_CLIP dev_proc_strip_copy_rop((*copy)) = dev_proc(tdev, strip_copy_rop); TRANSLATE_CLIP if ( xywh_in_ryptr() ) return (*copy)(tdev, sdata, sourcex, raster, id, scolors, textures, tcolors, x, y, w, h, phase_x, phase_y, lop); DO_CLIP(sdata += (yc - yp) * raster, (*copy)(tdev, sdata, sourcex + xc - x, raster, gx_no_bitmap_id, scolors, textures, tcolors, xc, yc, xec - xc, yec - yc, phase_x, phase_y, lop)) return 0; } /* ------ Debugging printout ------ */ #ifdef DEBUG /* Print a clipping path */ void gx_cpath_print(const gx_clip_path *pcpath) { const gx_clip_rect *pr; if ( pcpath->segments_valid ) gx_path_print(&pcpath->path); else dputs(" (segments not valid)\n"); dprintf4(" inner_box=(%g,%g),(%g,%g)\n", fixed2float(pcpath->inner_box.p.x), fixed2float(pcpath->inner_box.p.y), fixed2float(pcpath->inner_box.q.x), fixed2float(pcpath->inner_box.q.y)); dprintf5(" outer_box=(%g,%g),(%g,%g) count=%d\n", fixed2float(pcpath->outer_box.p.x), fixed2float(pcpath->outer_box.p.y), fixed2float(pcpath->outer_box.q.x), fixed2float(pcpath->outer_box.q.y), pcpath->list.count); dprintf2(" rule=%d outside=%d\n", pcpath->rule, pcpath->list.outside); switch ( pcpath->list.count ) { case 0: pr = 0; break; case 1: pr = &pcpath->list.single; break; default: pr = pcpath->list.head; } for ( ; pr != 0; pr = pr->next ) dprintf4(" rect: (%d,%d),(%d,%d)\n", pr->xmin, pr->ymin, pr->xmax, pr->ymax); } #endif /* DEBUG */