hrev51024 adds 1 changeset to branch 'master'
old head: b8eeeb21e3ec3d4593da455008afcb72137070a9
new head: ad05d1f08705c28bf3c02246b0a7524c0a59010f
overview:
http://cgit.haiku-os.org/haiku/log/?qt=range&q=ad05d1f08705+%5Eb8eeeb21e3ec
----------------------------------------------------------------------------
ad05d1f08705: libs/agg: Remove GPC.
It was licensed with a "no commercial usage allowed" license, which if
we were using it would be a gray area at best. We weren't using it at all,
and AGG seems to have disabled building it by default, so just remove it
from the tree entirely.
Briefly discussed on IRC.
[ Augustin Cavalier <waddlesplash@xxxxxxxxx> ]
----------------------------------------------------------------------------
Revision: hrev51024
Commit: ad05d1f08705c28bf3c02246b0a7524c0a59010f
URL: http://cgit.haiku-os.org/haiku/commit/?id=ad05d1f08705
Author: Augustin Cavalier <waddlesplash@xxxxxxxxx>
Date: Sat Mar 18 23:27:45 2017 UTC
----------------------------------------------------------------------------
5 files changed, 1 insertion(+), 3059 deletions(-)
data/system/data/licenses/GPC | 21 -
headers/libs/agg/agg_conv_gpc.h | 432 ------
src/apps/aboutsystem/AboutSystem.cpp | 2 +-
src/libs/agg/gpc/gpc.c | 2472 ------------------------------
src/libs/agg/gpc/gpc.h | 133 --
----------------------------------------------------------------------------
diff --git a/data/system/data/licenses/GPC b/data/system/data/licenses/GPC
deleted file mode 100644
index 7e69d6b..0000000
--- a/data/system/data/licenses/GPC
+++ /dev/null
@@ -1,21 +0,0 @@
- http://www.cs.man.ac.uk/aig/staff/alan/software/
-
-Author: Alan Murta (email: gpc@xxxxxxxxxxxx)
-Version: 2.31
-Date: 4th June 1999
-
-Copyright: (C) 1997-1999, Advanced Interfaces Group,
- University of Manchester.
-
- This software is free for non-commercial use. It may be copied,
- modified, and redistributed provided that this copyright notice
- is preserved on all copies. The intellectual property rights of
- the algorithms used reside with the University of Manchester
- Advanced Interfaces Group.
-
- You may not use this software, in whole or in part, in support
- of any commercial product without the express consent of the
- author.
-
- There is no warranty or other guarantee of fitness of this
- software for any purpose. It is provided solely "as is".
diff --git a/headers/libs/agg/agg_conv_gpc.h b/headers/libs/agg/agg_conv_gpc.h
deleted file mode 100644
index 2acada3..0000000
--- a/headers/libs/agg/agg_conv_gpc.h
+++ /dev/null
@@ -1,432 +0,0 @@
-//----------------------------------------------------------------------------
-// Anti-Grain Geometry - Version 2.4
-// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
-//
-// Permission to copy, use, modify, sell and distribute this software
-// is granted provided this copyright notice appears in all copies.
-// This software is provided "as is" without express or implied
-// warranty, and with no claim as to its suitability for any purpose.
-//
-//----------------------------------------------------------------------------
-// Contact: mcseem@xxxxxxxxxxxxx
-// mcseemagg@xxxxxxxxx
-// http://www.antigrain.com
-//----------------------------------------------------------------------------
-//
-// General Polygon Clipper based on the GPC library by Alan Murta
-// Union, Intersection, XOR, A-B, B-A
-// Contact the author if you intend to use it in commercial applications!
-// http://www.cs.man.ac.uk/aig/staff/alan/software/
-// Alan Murta (email: gpc@xxxxxxxxxxxx)
-//
-//----------------------------------------------------------------------------
-
-#ifndef AGG_CONV_GPC_INCLUDED
-#define AGG_CONV_GPC_INCLUDED
-
-#include <math.h>
-#include "agg_basics.h"
-#include "agg_array.h"
-
-extern "C"
-{
-#include "gpc.h"
-}
-
-namespace agg
-{
- enum gpc_op_e
- {
- gpc_or,
- gpc_and,
- gpc_xor,
- gpc_a_minus_b,
- gpc_b_minus_a
- };
-
-
- //================================================================conv_gpc
- template<class VSA, class VSB> class conv_gpc
- {
- enum status
- {
- status_move_to,
- status_line_to,
- status_stop
- };
-
- struct contour_header_type
- {
- int num_vertices;
- int hole_flag;
- gpc_vertex* vertices;
- };
-
- typedef pod_bvector<gpc_vertex, 8> vertex_array_type;
- typedef pod_bvector<contour_header_type, 6> contour_header_array_type;
-
-
- public:
- typedef VSA source_a_type;
- typedef VSB source_b_type;
- typedef conv_gpc<source_a_type, source_b_type> self_type;
-
- ~conv_gpc()
- {
- free_gpc_data();
- }
-
- conv_gpc(source_a_type& a, source_b_type& b, gpc_op_e op = gpc_or) :
- m_src_a(&a),
- m_src_b(&b),
- m_status(status_move_to),
- m_vertex(-1),
- m_contour(-1),
- m_operation(op)
- {
- memset(&m_poly_a, 0, sizeof(m_poly_a));
- memset(&m_poly_b, 0, sizeof(m_poly_b));
- memset(&m_result, 0, sizeof(m_result));
- }
-
- void attach1(VSA& source) { m_src_a = &source; }
- void attach2(VSB& source) { m_src_b = &source; }
-
- void operation(gpc_op_e v) { m_operation = v; }
-
- // Vertex Source Interface
- void rewind(unsigned path_id);
- unsigned vertex(double* x, double* y);
-
- private:
- conv_gpc(const conv_gpc<VSA, VSB>&);
- const conv_gpc<VSA, VSB>& operator = (const conv_gpc<VSA, VSB>&);
-
- //--------------------------------------------------------------------
- void free_polygon(gpc_polygon& p);
- void free_result();
- void free_gpc_data();
- void start_contour();
- void add_vertex(double x, double y);
- void end_contour(unsigned orientation);
- void make_polygon(gpc_polygon& p);
- void start_extracting();
- bool next_contour();
- bool next_vertex(double* x, double* y);
-
-
- //--------------------------------------------------------------------
- template<class VS> void add(VS& src, gpc_polygon& p)
- {
- unsigned cmd;
- double x, y;
- double start_x = 0.0;
- double start_y = 0.0;
- bool line_to = false;
- unsigned orientation = 0;
-
- m_contour_accumulator.remove_all();
-
- while(!is_stop(cmd = src.vertex(&x, &y)))
- {
- if(is_vertex(cmd))
- {
- if(is_move_to(cmd))
- {
- if(line_to)
- {
- end_contour(orientation);
- orientation = 0;
- }
- start_contour();
- start_x = x;
- start_y = y;
- }
- add_vertex(x, y);
- line_to = true;
- }
- else
- {
- if(is_end_poly(cmd))
- {
- orientation = get_orientation(cmd);
- if(line_to && is_closed(cmd))
- {
- add_vertex(start_x, start_y);
- }
- }
- }
- }
- if(line_to)
- {
- end_contour(orientation);
- }
- make_polygon(p);
- }
-
-
- private:
- //--------------------------------------------------------------------
- source_a_type* m_src_a;
- source_b_type* m_src_b;
- status m_status;
- int m_vertex;
- int m_contour;
- gpc_op_e m_operation;
- vertex_array_type m_vertex_accumulator;
- contour_header_array_type m_contour_accumulator;
- gpc_polygon m_poly_a;
- gpc_polygon m_poly_b;
- gpc_polygon m_result;
- };
-
-
-
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::free_polygon(gpc_polygon& p)
- {
- int i;
- for(i = 0; i < p.num_contours; i++)
- {
- pod_allocator<gpc_vertex>::deallocate(p.contour[i].vertex,
- p.contour[i].num_vertices);
- }
- pod_allocator<gpc_vertex_list>::deallocate(p.contour, p.num_contours);
- memset(&p, 0, sizeof(gpc_polygon));
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::free_result()
- {
- if(m_result.contour)
- {
- gpc_free_polygon(&m_result);
- }
- memset(&m_result, 0, sizeof(m_result));
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::free_gpc_data()
- {
- free_polygon(m_poly_a);
- free_polygon(m_poly_b);
- free_result();
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::start_contour()
- {
- contour_header_type h;
- memset(&h, 0, sizeof(h));
- m_contour_accumulator.add(h);
- m_vertex_accumulator.remove_all();
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- inline void conv_gpc<VSA, VSB>::add_vertex(double x, double y)
- {
- gpc_vertex v;
- v.x = x;
- v.y = y;
- m_vertex_accumulator.add(v);
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::end_contour(unsigned orientation)
- {
- if(m_contour_accumulator.size())
- {
- if(m_vertex_accumulator.size() > 2)
- {
- contour_header_type& h =
- m_contour_accumulator[m_contour_accumulator.size() - 1];
-
- h.num_vertices = m_vertex_accumulator.size();
- h.hole_flag = 0;
-
- // TO DO: Clarify the "holes"
- //if(is_cw(orientation)) h.hole_flag = 1;
-
- h.vertices =
pod_allocator<gpc_vertex>::allocate(h.num_vertices);
- gpc_vertex* d = h.vertices;
- int i;
- for(i = 0; i < h.num_vertices; i++)
- {
- const gpc_vertex& s = m_vertex_accumulator[i];
- d->x = s.x;
- d->y = s.y;
- ++d;
- }
- }
- else
- {
- m_vertex_accumulator.remove_last();
- }
- }
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::make_polygon(gpc_polygon& p)
- {
- free_polygon(p);
- if(m_contour_accumulator.size())
- {
- p.num_contours = m_contour_accumulator.size();
-
- p.hole = 0;
- p.contour =
pod_allocator<gpc_vertex_list>::allocate(p.num_contours);
-
- int i;
- gpc_vertex_list* pv = p.contour;
- for(i = 0; i < p.num_contours; i++)
- {
- const contour_header_type& h = m_contour_accumulator[i];
- pv->num_vertices = h.num_vertices;
- pv->vertex = h.vertices;
- ++pv;
- }
- }
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::start_extracting()
- {
- m_status = status_move_to;
- m_contour = -1;
- m_vertex = -1;
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- bool conv_gpc<VSA, VSB>::next_contour()
- {
- if(++m_contour < m_result.num_contours)
- {
- m_vertex = -1;
- return true;
- }
- return false;
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- inline bool conv_gpc<VSA, VSB>::next_vertex(double* x, double* y)
- {
- const gpc_vertex_list& vlist = m_result.contour[m_contour];
- if(++m_vertex < vlist.num_vertices)
- {
- const gpc_vertex& v = vlist.vertex[m_vertex];
- *x = v.x;
- *y = v.y;
- return true;
- }
- return false;
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- void conv_gpc<VSA, VSB>::rewind(unsigned path_id)
- {
- free_result();
- m_src_a->rewind(path_id);
- m_src_b->rewind(path_id);
- add(*m_src_a, m_poly_a);
- add(*m_src_b, m_poly_b);
- switch(m_operation)
- {
- case gpc_or:
- gpc_polygon_clip(GPC_UNION,
- &m_poly_a,
- &m_poly_b,
- &m_result);
- break;
-
- case gpc_and:
- gpc_polygon_clip(GPC_INT,
- &m_poly_a,
- &m_poly_b,
- &m_result);
- break;
-
- case gpc_xor:
- gpc_polygon_clip(GPC_XOR,
- &m_poly_a,
- &m_poly_b,
- &m_result);
- break;
-
- case gpc_a_minus_b:
- gpc_polygon_clip(GPC_DIFF,
- &m_poly_a,
- &m_poly_b,
- &m_result);
- break;
-
- case gpc_b_minus_a:
- gpc_polygon_clip(GPC_DIFF,
- &m_poly_b,
- &m_poly_a,
- &m_result);
- break;
- }
- start_extracting();
- }
-
-
- //------------------------------------------------------------------------
- template<class VSA, class VSB>
- unsigned conv_gpc<VSA, VSB>::vertex(double* x, double* y)
- {
- if(m_status == status_move_to)
- {
- if(next_contour())
- {
- if(next_vertex(x, y))
- {
- m_status = status_line_to;
- return path_cmd_move_to;
- }
- m_status = status_stop;
- return path_cmd_end_poly | path_flags_close;
- }
- }
- else
- {
- if(next_vertex(x, y))
- {
- return path_cmd_line_to;
- }
- else
- {
- m_status = status_move_to;
- }
- return path_cmd_end_poly | path_flags_close;
- }
- return path_cmd_stop;
- }
-
-
-}
-
-
-#endif
diff --git a/src/apps/aboutsystem/AboutSystem.cpp
b/src/apps/aboutsystem/AboutSystem.cpp
index b1f3c7c..c26b364 100644
--- a/src/apps/aboutsystem/AboutSystem.cpp
+++ b/src/apps/aboutsystem/AboutSystem.cpp
@@ -1136,7 +1136,7 @@ AboutView::_CreateCreditsView()
_AddPackageCredit(PackageCredit("AntiGrain Geometry")
.SetCopyright(B_TRANSLATE(COPYRIGHT_STRING "2002-2006 Maxim "
"Shemanarev (McSeem)."))
- .SetLicenses("Anti-Grain Geometry", kBSDThreeClause, "GPC",
NULL)
+ .SetLicenses("Anti-Grain Geometry", kBSDThreeClause, NULL)
.SetURL("http://www.antigrain.com";));
// PDFLib copyrights
diff --git a/src/libs/agg/gpc/gpc.c b/src/libs/agg/gpc/gpc.c
deleted file mode 100644
index b9cce1b..0000000
--- a/src/libs/agg/gpc/gpc.c
+++ /dev/null
@@ -1,2472 +0,0 @@
-/*
-===========================================================================
-
-Project: Generic Polygon Clipper
-
- A new algorithm for calculating the difference, intersection,
- exclusive-or or union of arbitrary polygon sets.
-
-File: gpc.c
-Author: Alan Murta (email: gpc@xxxxxxxxxxxx)
-Version: 2.32
-Date: 17th December 2004
-
-Copyright: (C) 1997-2004, Advanced Interfaces Group,
- University of Manchester.
-
- This software is free for non-commercial use. It may be copied,
- modified, and redistributed provided that this copyright notice
- is preserved on all copies. The intellectual property rights of
- the algorithms used reside with the University of Manchester
- Advanced Interfaces Group.
-
- You may not use this software, in whole or in part, in support
- of any commercial product without the express consent of the
- author.
-
- There is no warranty or other guarantee of fitness of this
- software for any purpose. It is provided solely "as is".
-
-===========================================================================
-*/
-
-
-/*
-===========================================================================
- Includes
-===========================================================================
-*/
-
-#include "gpc.h"
-#include <stdlib.h>
-#include <float.h>
-#include <math.h>
-
-
-/*
-===========================================================================
- Constants
-===========================================================================
-*/
-
-#ifndef TRUE
-#define FALSE 0
-#define TRUE 1
-#endif
-
-#define LEFT 0
-#define RIGHT 1
-
-#define ABOVE 0
-#define BELOW 1
-
-#define CLIP 0
-#define SUBJ 1
-
-#define INVERT_TRISTRIPS FALSE
-
-
-/*
-===========================================================================
- Macros
-===========================================================================
-*/
-
-#define EQ(a, b) (fabs((a) - (b)) <= GPC_EPSILON)
-
-#define PREV_INDEX(i, n) ((i - 1 + n) % n)
-#define NEXT_INDEX(i, n) ((i + 1 ) % n)
-
-#define OPTIMAL(v, i, n) ((v[PREV_INDEX(i, n)].y != v[i].y) || \
- (v[NEXT_INDEX(i, n)].y != v[i].y))
-
-#define FWD_MIN(v, i, n) ((v[PREV_INDEX(i, n)].vertex.y >= v[i].vertex.y) \
- && (v[NEXT_INDEX(i, n)].vertex.y > v[i].vertex.y))
-
-#define NOT_FMAX(v, i, n) (v[NEXT_INDEX(i, n)].vertex.y > v[i].vertex.y)
-
-#define REV_MIN(v, i, n) ((v[PREV_INDEX(i, n)].vertex.y > v[i].vertex.y) \
- && (v[NEXT_INDEX(i, n)].vertex.y >= v[i].vertex.y))
-
-#define NOT_RMAX(v, i, n) (v[PREV_INDEX(i, n)].vertex.y > v[i].vertex.y)
-
-#define VERTEX(e,p,s,x,y) {add_vertex(&((e)->outp[(p)]->v[(s)]), x, y); \
- (e)->outp[(p)]->active++;}
-
-#define P_EDGE(d,e,p,i,j) {(d)= (e); \
- do {(d)= (d)->prev;} while (!(d)->outp[(p)]); \
- (i)= (d)->bot.x + (d)->dx * ((j)-(d)->bot.y);}
-
-#define N_EDGE(d,e,p,i,j) {(d)= (e); \
- do {(d)= (d)->next;} while (!(d)->outp[(p)]); \
- (i)= (d)->bot.x + (d)->dx * ((j)-(d)->bot.y);}
-
-#define MALLOC(p, b, s, t) {if ((b) > 0) { \
- p= (t*)malloc(b); if (!(p)) { \
- fprintf(stderr, "gpc malloc failure: %s\n", s); \
- exit(0);}} else p= NULL;}
-
-#define FREE(p) {if (p) {free(p); (p)= NULL;}}
-
-
-/*
-===========================================================================
- Private Data Types
-===========================================================================
-*/
-
-typedef enum /* Edge intersection classes */
-{
- NUL, /* Empty non-intersection */
- EMX, /* External maximum */
- ELI, /* External left intermediate */
- TED, /* Top edge */
- ERI, /* External right intermediate */
- RED, /* Right edge */
- IMM, /* Internal maximum and minimum */
- IMN, /* Internal minimum */
- EMN, /* External minimum */
- EMM, /* External maximum and minimum */
- LED, /* Left edge */
- ILI, /* Internal left intermediate */
- BED, /* Bottom edge */
- IRI, /* Internal right intermediate */
- IMX, /* Internal maximum */
- FUL /* Full non-intersection */
-} vertex_type;
-
-typedef enum /* Horizontal edge states */
-{
- NH, /* No horizontal edge */
- BH, /* Bottom horizontal edge */
- TH /* Top horizontal edge */
-} h_state;
-
-typedef enum /* Edge bundle state */
-{
- UNBUNDLED, /* Isolated edge not within a bundle */
- BUNDLE_HEAD, /* Bundle head node */
- BUNDLE_TAIL /* Passive bundle tail node */
-} bundle_state;
-
-typedef struct v_shape /* Internal vertex list datatype */
-{
- double x; /* X coordinate component */
- double y; /* Y coordinate component */
- struct v_shape *next; /* Pointer to next vertex in list */
-} vertex_node;
-
-typedef struct p_shape /* Internal contour / tristrip type */
-{
- int active; /* Active flag / vertex count */
- int hole; /* Hole / external contour flag */
- vertex_node *v[2]; /* Left and right vertex list ptrs */
- struct p_shape *next; /* Pointer to next polygon contour */
- struct p_shape *proxy; /* Pointer to actual structure used */
-} polygon_node;
-
-typedef struct edge_shape
-{
- gpc_vertex vertex; /* Piggy-backed contour vertex data */
- gpc_vertex bot; /* Edge lower (x, y) coordinate */
- gpc_vertex top; /* Edge upper (x, y) coordinate */
- double xb; /* Scanbeam bottom x coordinate */
- double xt; /* Scanbeam top x coordinate */
- double dx; /* Change in x for a unit y increase */
- int type; /* Clip / subject edge flag */
- int bundle[2][2]; /* Bundle edge flags */
- int bside[2]; /* Bundle left / right indicators */
- bundle_state bstate[2]; /* Edge bundle state */
- polygon_node *outp[2]; /* Output polygon / tristrip pointer */
- struct edge_shape *prev; /* Previous edge in the AET */
- struct edge_shape *next; /* Next edge in the AET */
- struct edge_shape *pred; /* Edge connected at the lower end */
- struct edge_shape *succ; /* Edge connected at the upper end */
- struct edge_shape *next_bound; /* Pointer to next bound in LMT */
-} edge_node;
-
-typedef struct lmt_shape /* Local minima table */
-{
- double y; /* Y coordinate at local minimum */
- edge_node *first_bound; /* Pointer to bound list */
- struct lmt_shape *next; /* Pointer to next local minimum */
-} lmt_node;
-
-typedef struct sbt_t_shape /* Scanbeam tree */
-{
- double y; /* Scanbeam node y value */
- struct sbt_t_shape *less; /* Pointer to nodes with lower y */
- struct sbt_t_shape *more; /* Pointer to nodes with higher y */
-} sb_tree;
-
-typedef struct it_shape /* Intersection table */
-{
- edge_node *ie[2]; /* Intersecting edge (bundle) pair */
- gpc_vertex point; /* Point of intersection */
- struct it_shape *next; /* The next intersection table node */
-} it_node;
-
-typedef struct st_shape /* Sorted edge table */
-{
- edge_node *edge; /* Pointer to AET edge */
- double xb; /* Scanbeam bottom x coordinate */
- double xt; /* Scanbeam top x coordinate */
- double dx; /* Change in x for a unit y increase */
- struct st_shape *prev; /* Previous edge in sorted list */
-} st_node;
-
-typedef struct bbox_shape /* Contour axis-aligned bounding box */
-{
- double xmin; /* Minimum x coordinate */
- double ymin; /* Minimum y coordinate */
- double xmax; /* Maximum x coordinate */
- double ymax; /* Maximum y coordinate */
-} bbox;
-
-
-/*
-===========================================================================
- Global Data
-===========================================================================
-*/
-
-/* Horizontal edge state transitions within scanbeam boundary */
-const h_state next_h_state[3][6]=
-{
- /* ABOVE BELOW CROSS */
- /* L R L R L R */
- /* NH */ {BH, TH, TH, BH, NH, NH},
- /* BH */ {NH, NH, NH, NH, TH, TH},
- /* TH */ {NH, NH, NH, NH, BH, BH}
-};
-
-
-/*
-===========================================================================
- Private Functions
-===========================================================================
-*/
-
-static void reset_it(it_node **it)
-{
- it_node *itn;
-
- while (*it)
- {
- itn= (*it)->next;
- FREE(*it);
- *it= itn;
- }
-}
-
-
-static void reset_lmt(lmt_node **lmt)
-{
- lmt_node *lmtn;
-
- while (*lmt)
- {
- lmtn= (*lmt)->next;
- FREE(*lmt);
- *lmt= lmtn;
- }
-}
-
-
-static void insert_bound(edge_node **b, edge_node *e)
-{
- edge_node *existing_bound;
-
- if (!*b)
- {
- /* Link node e to the tail of the list */
- *b= e;
- }
- else
- {
- /* Do primary sort on the x field */
- if (e[0].bot.x < (*b)[0].bot.x)
- {
- /* Insert a new node mid-list */
- existing_bound= *b;
- *b= e;
- (*b)->next_bound= existing_bound;
- }
- else
- {
- if (e[0].bot.x == (*b)[0].bot.x)
- {
- /* Do secondary sort on the dx field */
- if (e[0].dx < (*b)[0].dx)
- {
- /* Insert a new node mid-list */
- existing_bound= *b;
- *b= e;
- (*b)->next_bound= existing_bound;
- }
- else
- {
- /* Head further down the list */
- insert_bound(&((*b)->next_bound), e);
- }
- }
- else
- {
- /* Head further down the list */
- insert_bound(&((*b)->next_bound), e);
- }
- }
- }
-}
-
-
-static edge_node **bound_list(lmt_node **lmt, double y)
-{
- lmt_node *existing_node;
-
- if (!*lmt)
- {
- /* Add node onto the tail end of the LMT */
- MALLOC(*lmt, sizeof(lmt_node), "LMT insertion", lmt_node);
- (*lmt)->y= y;
- (*lmt)->first_bound= NULL;
- (*lmt)->next= NULL;
- return &((*lmt)->first_bound);
- }
- else
- if (y < (*lmt)->y)
- {
- /* Insert a new LMT node before the current node */
- existing_node= *lmt;
- MALLOC(*lmt, sizeof(lmt_node), "LMT insertion", lmt_node);
- (*lmt)->y= y;
- (*lmt)->first_bound= NULL;
- (*lmt)->next= existing_node;
- return &((*lmt)->first_bound);
- }
- else
- if (y > (*lmt)->y)
- /* Head further up the LMT */
- return bound_list(&((*lmt)->next), y);
- else
- /* Use this existing LMT node */
- return &((*lmt)->first_bound);
-}
-
-
-static void add_to_sbtree(int *entries, sb_tree **sbtree, double y)
-{
- if (!*sbtree)
- {
- /* Add a new tree node here */
- MALLOC(*sbtree, sizeof(sb_tree), "scanbeam tree insertion", sb_tree);
- (*sbtree)->y= y;
- (*sbtree)->less= NULL;
- (*sbtree)->more= NULL;
- (*entries)++;
- }
- else
- {
- if ((*sbtree)->y > y)
- {
- /* Head into the 'less' sub-tree */
- add_to_sbtree(entries, &((*sbtree)->less), y);
- }
- else
- {
- if ((*sbtree)->y < y)
- {
- /* Head into the 'more' sub-tree */
- add_to_sbtree(entries, &((*sbtree)->more), y);
- }
- }
- }
-}
-
-
-static void build_sbt(int *entries, double *sbt, sb_tree *sbtree)
-{
- if (sbtree->less)
- build_sbt(entries, sbt, sbtree->less);
- sbt[*entries]= sbtree->y;
- (*entries)++;
- if (sbtree->more)
- build_sbt(entries, sbt, sbtree->more);
-}
-
-
-static void free_sbtree(sb_tree **sbtree)
-{
- if (*sbtree)
- {
- free_sbtree(&((*sbtree)->less));
- free_sbtree(&((*sbtree)->more));
- FREE(*sbtree);
- }
-}
-
-
-static int count_optimal_vertices(gpc_vertex_list c)
-{
- int result= 0, i;
-
- /* Ignore non-contributing contours */
- if (c.num_vertices > 0)
- {
- for (i= 0; i < c.num_vertices; i++)
- /* Ignore superfluous vertices embedded in horizontal edges */
- if (OPTIMAL(c.vertex, i, c.num_vertices))
- result++;
- }
- return result;
-}
-
-
-static edge_node *build_lmt(lmt_node **lmt, sb_tree **sbtree,
- int *sbt_entries, gpc_polygon *p, int type,
- gpc_op op)
-{
- int c, i, min, max, num_edges, v, num_vertices;
- int total_vertices= 0, e_index=0;
- edge_node *e, *edge_table;
-
- for (c= 0; c < p->num_contours; c++)
- total_vertices+= count_optimal_vertices(p->contour[c]);
-
- /* Create the entire input polygon edge table in one go */
- MALLOC(edge_table, total_vertices * sizeof(edge_node),
- "edge table creation", edge_node);
-
- for (c= 0; c < p->num_contours; c++)
- {
- if (p->contour[c].num_vertices < 0)
- {
- /* Ignore the non-contributing contour and repair the vertex count */
- p->contour[c].num_vertices= -p->contour[c].num_vertices;
- }
- else
- {
- /* Perform contour optimisation */
- num_vertices= 0;
- for (i= 0; i < p->contour[c].num_vertices; i++)
- if (OPTIMAL(p->contour[c].vertex, i, p->contour[c].num_vertices))
- {
- edge_table[num_vertices].vertex.x= p->contour[c].vertex[i].x;
- edge_table[num_vertices].vertex.y= p->contour[c].vertex[i].y;
-
- /* Record vertex in the scanbeam table */
- add_to_sbtree(sbt_entries, sbtree,
- edge_table[num_vertices].vertex.y);
-
- num_vertices++;
- }
-
- /* Do the contour forward pass */
- for (min= 0; min < num_vertices; min++)
- {
- /* If a forward local minimum... */
- if (FWD_MIN(edge_table, min, num_vertices))
- {
- /* Search for the next local maximum... */
- num_edges= 1;
- max= NEXT_INDEX(min, num_vertices);
- while (NOT_FMAX(edge_table, max, num_vertices))
- {
- num_edges++;
- max= NEXT_INDEX(max, num_vertices);
- }
-
- /* Build the next edge list */
- e= &edge_table[e_index];
- e_index+= num_edges;
- v= min;
- e[0].bstate[BELOW]= UNBUNDLED;
- e[0].bundle[BELOW][CLIP]= FALSE;
- e[0].bundle[BELOW][SUBJ]= FALSE;
- for (i= 0; i < num_edges; i++)
- {
- e[i].xb= edge_table[v].vertex.x;
- e[i].bot.x= edge_table[v].vertex.x;
- e[i].bot.y= edge_table[v].vertex.y;
-
- v= NEXT_INDEX(v, num_vertices);
-
- e[i].top.x= edge_table[v].vertex.x;
- e[i].top.y= edge_table[v].vertex.y;
- e[i].dx= (edge_table[v].vertex.x - e[i].bot.x) /
- (e[i].top.y - e[i].bot.y);
- e[i].type= type;
- e[i].outp[ABOVE]= NULL;
- e[i].outp[BELOW]= NULL;
- e[i].next= NULL;
- e[i].prev= NULL;
- e[i].succ= ((num_edges > 1) && (i < (num_edges - 1))) ?
- &(e[i + 1]) : NULL;
- e[i].pred= ((num_edges > 1) && (i > 0)) ? &(e[i - 1]) : NULL;
- e[i].next_bound= NULL;
- e[i].bside[CLIP]= (op == GPC_DIFF) ? RIGHT : LEFT;
- e[i].bside[SUBJ]= LEFT;
- }
- insert_bound(bound_list(lmt, edge_table[min].vertex.y), e);
- }
- }
-
- /* Do the contour reverse pass */
- for (min= 0; min < num_vertices; min++)
- {
- /* If a reverse local minimum... */
- if (REV_MIN(edge_table, min, num_vertices))
- {
- /* Search for the previous local maximum... */
- num_edges= 1;
- max= PREV_INDEX(min, num_vertices);
- while (NOT_RMAX(edge_table, max, num_vertices))
- {
- num_edges++;
- max= PREV_INDEX(max, num_vertices);
- }
-
- /* Build the previous edge list */
- e= &edge_table[e_index];
- e_index+= num_edges;
- v= min;
- e[0].bstate[BELOW]= UNBUNDLED;
- e[0].bundle[BELOW][CLIP]= FALSE;
- e[0].bundle[BELOW][SUBJ]= FALSE;
- for (i= 0; i < num_edges; i++)
- {
- e[i].xb= edge_table[v].vertex.x;
- e[i].bot.x= edge_table[v].vertex.x;
- e[i].bot.y= edge_table[v].vertex.y;
-
- v= PREV_INDEX(v, num_vertices);
-
- e[i].top.x= edge_table[v].vertex.x;
- e[i].top.y= edge_table[v].vertex.y;
- e[i].dx= (edge_table[v].vertex.x - e[i].bot.x) /
- (e[i].top.y - e[i].bot.y);
- e[i].type= type;
- e[i].outp[ABOVE]= NULL;
- e[i].outp[BELOW]= NULL;
- e[i].next= NULL;
- e[i].prev= NULL;
- e[i].succ= ((num_edges > 1) && (i < (num_edges - 1))) ?
- &(e[i + 1]) : NULL;
- e[i].pred= ((num_edges > 1) && (i > 0)) ? &(e[i - 1]) : NULL;
- e[i].next_bound= NULL;
- e[i].bside[CLIP]= (op == GPC_DIFF) ? RIGHT : LEFT;
- e[i].bside[SUBJ]= LEFT;
- }
- insert_bound(bound_list(lmt, edge_table[min].vertex.y), e);
- }
- }
- }
- }
- return edge_table;
-}
-
-
-static void add_edge_to_aet(edge_node **aet, edge_node *edge, edge_node *prev)
-{
- if (!*aet)
- {
- /* Append edge onto the tail end of the AET */
- *aet= edge;
- edge->prev= prev;
- edge->next= NULL;
- }
- else
- {
- /* Do primary sort on the xb field */
- if (edge->xb < (*aet)->xb)
- {
- /* Insert edge here (before the AET edge) */
- edge->prev= prev;
- edge->next= *aet;
- (*aet)->prev= edge;
- *aet= edge;
- }
- else
- {
- if (edge->xb == (*aet)->xb)
- {
- /* Do secondary sort on the dx field */
- if (edge->dx < (*aet)->dx)
- {
- /* Insert edge here (before the AET edge) */
- edge->prev= prev;
- edge->next= *aet;
- (*aet)->prev= edge;
- *aet= edge;
- }
- else
- {
- /* Head further into the AET */
- add_edge_to_aet(&((*aet)->next), edge, *aet);
- }
- }
- else
- {
- /* Head further into the AET */
- add_edge_to_aet(&((*aet)->next), edge, *aet);
- }
- }
- }
-}
-
-
-static void add_intersection(it_node **it, edge_node *edge0, edge_node *edge1,
- double x, double y)
-{
- it_node *existing_node;
-
- if (!*it)
- {
- /* Append a new node to the tail of the list */
- MALLOC(*it, sizeof(it_node), "IT insertion", it_node);
- (*it)->ie[0]= edge0;
- (*it)->ie[1]= edge1;
- (*it)->point.x= x;
- (*it)->point.y= y;
- (*it)->next= NULL;
- }
- else
- {
- if ((*it)->point.y > y)
- {
- /* Insert a new node mid-list */
- existing_node= *it;
- MALLOC(*it, sizeof(it_node), "IT insertion", it_node);
- (*it)->ie[0]= edge0;
- (*it)->ie[1]= edge1;
- (*it)->point.x= x;
- (*it)->point.y= y;
- (*it)->next= existing_node;
- }
- else
- /* Head further down the list */
- add_intersection(&((*it)->next), edge0, edge1, x, y);
- }
-}
-
-
-static void add_st_edge(st_node **st, it_node **it, edge_node *edge,
- double dy)
-{
- st_node *existing_node;
- double den, r, x, y;
-
- if (!*st)
- {
- /* Append edge onto the tail end of the ST */
- MALLOC(*st, sizeof(st_node), "ST insertion", st_node);
- (*st)->edge= edge;
- (*st)->xb= edge->xb;
- (*st)->xt= edge->xt;
- (*st)->dx= edge->dx;
- (*st)->prev= NULL;
- }
- else
- {
- den= ((*st)->xt - (*st)->xb) - (edge->xt - edge->xb);
-
- /* If new edge and ST edge don't cross */
- if ((edge->xt >= (*st)->xt) || (edge->dx == (*st)->dx) ||
- (fabs(den) <= DBL_EPSILON))
- {
- /* No intersection - insert edge here (before the ST edge) */
- existing_node= *st;
- MALLOC(*st, sizeof(st_node), "ST insertion", st_node);
- (*st)->edge= edge;
- (*st)->xb= edge->xb;
- (*st)->xt= edge->xt;
- (*st)->dx= edge->dx;
- (*st)->prev= existing_node;
- }
- else
- {
- /* Compute intersection between new edge and ST edge */
- r= (edge->xb - (*st)->xb) / den;
- x= (*st)->xb + r * ((*st)->xt - (*st)->xb);
- y= r * dy;
-
- /* Insert the edge pointers and the intersection point in the IT */
- add_intersection(it, (*st)->edge, edge, x, y);
-
- /* Head further into the ST */
- add_st_edge(&((*st)->prev), it, edge, dy);
- }
- }
-}
-
-
-static void build_intersection_table(it_node **it, edge_node *aet, double dy)
-{
- st_node *st, *stp;
- edge_node *edge;
-
- /* Build intersection table for the current scanbeam */
- reset_it(it);
- st= NULL;
-
- /* Process each AET edge */
- for (edge= aet; edge; edge= edge->next)
- {
- if ((edge->bstate[ABOVE] == BUNDLE_HEAD) ||
- edge->bundle[ABOVE][CLIP] || edge->bundle[ABOVE][SUBJ])
- add_st_edge(&st, it, edge, dy);
- }
-
- /* Free the sorted edge table */
- while (st)
- {
- stp= st->prev;
- FREE(st);
- st= stp;
- }
-}
-
-static int count_contours(polygon_node *polygon)
-{
- int nc, nv;
- vertex_node *v, *nextv;
-
- for (nc= 0; polygon; polygon= polygon->next)
- if (polygon->active)
- {
- /* Count the vertices in the current contour */
- nv= 0;
- for (v= polygon->proxy->v[LEFT]; v; v= v->next)
- nv++;
-
- /* Record valid vertex counts in the active field */
- if (nv > 2)
- {
- polygon->active= nv;
- nc++;
- }
- else
- {
- /* Invalid contour: just free the heap */
- for (v= polygon->proxy->v[LEFT]; v; v= nextv)
- {
- nextv= v->next;
- FREE(v);
- }
- polygon->active= 0;
- }
- }
- return nc;
-}
-
-
-static void add_left(polygon_node *p, double x, double y)
-{
- vertex_node *nv;
-
- /* Create a new vertex node and set its fields */
- MALLOC(nv, sizeof(vertex_node), "vertex node creation", vertex_node);
- nv->x= x;
- nv->y= y;
-
- /* Add vertex nv to the left end of the polygon's vertex list */
- nv->next= p->proxy->v[LEFT];
-
- /* Update proxy->[LEFT] to point to nv */
- p->proxy->v[LEFT]= nv;
-}
-
-
-static void merge_left(polygon_node *p, polygon_node *q, polygon_node *list)
-{
- polygon_node *target;
-
- /* Label contour as a hole */
- q->proxy->hole= TRUE;
-
- if (p->proxy != q->proxy)
- {
- /* Assign p's vertex list to the left end of q's list */
- p->proxy->v[RIGHT]->next= q->proxy->v[LEFT];
- q->proxy->v[LEFT]= p->proxy->v[LEFT];
-
- /* Redirect any p->proxy references to q->proxy */
-
- for (target= p->proxy; list; list= list->next)
- {
- if (list->proxy == target)
- {
- list->active= FALSE;
- list->proxy= q->proxy;
- }
- }
- }
-}
-
-
-static void add_right(polygon_node *p, double x, double y)
-{
- vertex_node *nv;
-
- /* Create a new vertex node and set its fields */
- MALLOC(nv, sizeof(vertex_node), "vertex node creation", vertex_node);
- nv->x= x;
- nv->y= y;
- nv->next= NULL;
-
- /* Add vertex nv to the right end of the polygon's vertex list */
- p->proxy->v[RIGHT]->next= nv;
-
- /* Update proxy->v[RIGHT] to point to nv */
- p->proxy->v[RIGHT]= nv;
-}
-
-
-static void merge_right(polygon_node *p, polygon_node *q, polygon_node *list)
-{
- polygon_node *target;
-
- /* Label contour as external */
- q->proxy->hole= FALSE;
-
- if (p->proxy != q->proxy)
- {
- /* Assign p's vertex list to the right end of q's list */
- q->proxy->v[RIGHT]->next= p->proxy->v[LEFT];
- q->proxy->v[RIGHT]= p->proxy->v[RIGHT];
-
- /* Redirect any p->proxy references to q->proxy */
- for (target= p->proxy; list; list= list->next)
- {
- if (list->proxy == target)
- {
- list->active= FALSE;
- list->proxy= q->proxy;
- }
- }
- }
-}
-
-
-static void add_local_min(polygon_node **p, edge_node *edge,
- double x, double y)
-{
- polygon_node *existing_min;
- vertex_node *nv;
-
- existing_min= *p;
-
- MALLOC(*p, sizeof(polygon_node), "polygon node creation", polygon_node);
-
- /* Create a new vertex node and set its fields */
- MALLOC(nv, sizeof(vertex_node), "vertex node creation", vertex_node);
- nv->x= x;
- nv->y= y;
- nv->next= NULL;
-
- /* Initialise proxy to point to p itself */
- (*p)->proxy= (*p);
- (*p)->active= TRUE;
- (*p)->next= existing_min;
-
- /* Make v[LEFT] and v[RIGHT] point to new vertex nv */
- (*p)->v[LEFT]= nv;
- (*p)->v[RIGHT]= nv;
-
- /* Assign polygon p to the edge */
- edge->outp[ABOVE]= *p;
-}
-
-
-static int count_tristrips(polygon_node *tn)
-{
- int total;
-
- for (total= 0; tn; tn= tn->next)
- if (tn->active > 2)
- total++;
- return total;
-}
-
-
-static void add_vertex(vertex_node **t, double x, double y)
-{
- if (!(*t))
- {
- MALLOC(*t, sizeof(vertex_node), "tristrip vertex creation", vertex_node);
- (*t)->x= x;
- (*t)->y= y;
- (*t)->next= NULL;
- }
- else
- /* Head further down the list */
- add_vertex(&((*t)->next), x, y);
-}
-
-
-static void new_tristrip(polygon_node **tn, edge_node *edge,
- double x, double y)
-{
- if (!(*tn))
- {
- MALLOC(*tn, sizeof(polygon_node), "tristrip node creation", polygon_node);
- (*tn)->next= NULL;
- (*tn)->v[LEFT]= NULL;
- (*tn)->v[RIGHT]= NULL;
- (*tn)->active= 1;
- add_vertex(&((*tn)->v[LEFT]), x, y);
- edge->outp[ABOVE]= *tn;
- }
- else
- /* Head further down the list */
- new_tristrip(&((*tn)->next), edge, x, y);
-}
-
-
-static bbox *create_contour_bboxes(gpc_polygon *p)
-{
- bbox *box;
- int c, v;
-
- MALLOC(box, p->num_contours * sizeof(bbox), "Bounding box creation", bbox);
-
- /* Construct contour bounding boxes */
- for (c= 0; c < p->num_contours; c++)
- {
- /* Initialise bounding box extent */
- box[c].xmin= DBL_MAX;
- box[c].ymin= DBL_MAX;
- box[c].xmax= -DBL_MAX;
- box[c].ymax= -DBL_MAX;
-
- for (v= 0; v < p->contour[c].num_vertices; v++)
- {
- /* Adjust bounding box */
- if (p->contour[c].vertex[v].x < box[c].xmin)
- box[c].xmin= p->contour[c].vertex[v].x;
- if (p->contour[c].vertex[v].y < box[c].ymin)
- box[c].ymin= p->contour[c].vertex[v].y;
- if (p->contour[c].vertex[v].x > box[c].xmax)
- box[c].xmax= p->contour[c].vertex[v].x;
- if (p->contour[c].vertex[v].y > box[c].ymax)
- box[c].ymax= p->contour[c].vertex[v].y;
- }
- }
- return box;
-}
-
-
-static void minimax_test(gpc_polygon *subj, gpc_polygon *clip, gpc_op op)
-{
- bbox *s_bbox, *c_bbox;
- int s, c, *o_table, overlap;
-
- s_bbox= create_contour_bboxes(subj);
- c_bbox= create_contour_bboxes(clip);
-
- MALLOC(o_table, subj->num_contours * clip->num_contours * sizeof(int),
- "overlap table creation", int);
-
- /* Check all subject contour bounding boxes against clip boxes */
- for (s= 0; s < subj->num_contours; s++)
- for (c= 0; c < clip->num_contours; c++)
- o_table[c * subj->num_contours + s]=
- (!((s_bbox[s].xmax < c_bbox[c].xmin) ||
- (s_bbox[s].xmin > c_bbox[c].xmax))) &&
- (!((s_bbox[s].ymax < c_bbox[c].ymin) ||
- (s_bbox[s].ymin > c_bbox[c].ymax)));
-
- /* For each clip contour, search for any subject contour overlaps */
- for (c= 0; c < clip->num_contours; c++)
- {
- overlap= 0;
- for (s= 0; (!overlap) && (s < subj->num_contours); s++)
- overlap= o_table[c * subj->num_contours + s];
-
- if (!overlap)
- /* Flag non contributing status by negating vertex count */
- clip->contour[c].num_vertices = -clip->contour[c].num_vertices;
- }
-
- if (op == GPC_INT)
- {
- /* For each subject contour, search for any clip contour overlaps */
- for (s= 0; s < subj->num_contours; s++)
- {
- overlap= 0;
- for (c= 0; (!overlap) && (c < clip->num_contours); c++)
- overlap= o_table[c * subj->num_contours + s];
-
- if (!overlap)
- /* Flag non contributing status by negating vertex count */
- subj->contour[s].num_vertices = -subj->contour[s].num_vertices;
- }
- }
-
- FREE(s_bbox);
- FREE(c_bbox);
- FREE(o_table);
-}
-
-
-/*
-===========================================================================
- Public Functions
-===========================================================================
-*/
-
-void gpc_free_polygon(gpc_polygon *p)
-{
- int c;
-
- for (c= 0; c < p->num_contours; c++)
- FREE(p->contour[c].vertex);
- FREE(p->hole);
- FREE(p->contour);
- p->num_contours= 0;
-}
-
-
-void gpc_read_polygon(FILE *fp, int read_hole_flags, gpc_polygon *p)
-{
- int c, v;
-
- fscanf(fp, "%d", &(p->num_contours));
- MALLOC(p->hole, p->num_contours * sizeof(int),
- "hole flag array creation", int);
- MALLOC(p->contour, p->num_contours
- * sizeof(gpc_vertex_list), "contour creation", gpc_vertex_list);
- for (c= 0; c < p->num_contours; c++)
- {
- fscanf(fp, "%d", &(p->contour[c].num_vertices));
-
- if (read_hole_flags)
- fscanf(fp, "%d", &(p->hole[c]));
- else
- p->hole[c]= FALSE; /* Assume all contours to be external */
-
- MALLOC(p->contour[c].vertex, p->contour[c].num_vertices
- * sizeof(gpc_vertex), "vertex creation", gpc_vertex);
- for (v= 0; v < p->contour[c].num_vertices; v++)
- fscanf(fp, "%lf %lf", &(p->contour[c].vertex[v].x),
- &(p->contour[c].vertex[v].y));
- }
-}
-
-
-void gpc_write_polygon(FILE *fp, int write_hole_flags, gpc_polygon *p)
-{
- int c, v;
-
- fprintf(fp, "%d\n", p->num_contours);
- for (c= 0; c < p->num_contours; c++)
- {
- fprintf(fp, "%d\n", p->contour[c].num_vertices);
-
- if (write_hole_flags)
- fprintf(fp, "%d\n", p->hole[c]);
-
- for (v= 0; v < p->contour[c].num_vertices; v++)
- fprintf(fp, "% .*lf % .*lf\n",
- DBL_DIG, p->contour[c].vertex[v].x,
- DBL_DIG, p->contour[c].vertex[v].y);
- }
-}
-
-
-void gpc_add_contour(gpc_polygon *p, gpc_vertex_list *new_contour, int hole)
-{
- int *extended_hole, c, v;
- gpc_vertex_list *extended_contour;
-
- /* Create an extended hole array */
- MALLOC(extended_hole, (p->num_contours + 1)
- * sizeof(int), "contour hole addition", int);
-
- /* Create an extended contour array */
- MALLOC(extended_contour, (p->num_contours + 1)
- * sizeof(gpc_vertex_list), "contour addition", gpc_vertex_list);
-
- /* Copy the old contour and hole data into the extended arrays */
- for (c= 0; c < p->num_contours; c++)
- {
- extended_hole[c]= p->hole[c];
- extended_contour[c]= p->contour[c];
- }
-
- /* Copy the new contour and hole onto the end of the extended arrays */
- c= p->num_contours;
- extended_hole[c]= hole;
- extended_contour[c].num_vertices= new_contour->num_vertices;
- MALLOC(extended_contour[c].vertex, new_contour->num_vertices
- * sizeof(gpc_vertex), "contour addition", gpc_vertex);
- for (v= 0; v < new_contour->num_vertices; v++)
- extended_contour[c].vertex[v]= new_contour->vertex[v];
-
- /* Dispose of the old contour */
- FREE(p->contour);
- FREE(p->hole);
-
- /* Update the polygon information */
- p->num_contours++;
- p->hole= extended_hole;
- p->contour= extended_contour;
-}
-
-
-void gpc_polygon_clip(gpc_op op, gpc_polygon *subj, gpc_polygon *clip,
- gpc_polygon *result)
-{
- sb_tree *sbtree= NULL;
- it_node *it= NULL, *intersect;
- edge_node *edge, *prev_edge, *next_edge, *succ_edge, *e0, *e1;
- edge_node *aet= NULL, *c_heap= NULL, *s_heap= NULL;
- lmt_node *lmt= NULL, *local_min;
- polygon_node *out_poly= NULL, *p, *q, *poly, *npoly, *cf= NULL;
- vertex_node *vtx, *nv;
- h_state horiz[2];
- int in[2], exists[2], parity[2]= {LEFT, LEFT};
- int c, v, contributing, search, scanbeam= 0, sbt_entries= 0;
- int vclass, bl, br, tl, tr;
- double *sbt= NULL, xb, px, yb, yt, dy, ix, iy;
-
- /* Test for trivial NULL result cases */
- if (((subj->num_contours == 0) && (clip->num_contours == 0))
- || ((subj->num_contours == 0) && ((op == GPC_INT) || (op == GPC_DIFF)))
- || ((clip->num_contours == 0) && (op == GPC_INT)))
- {
- result->num_contours= 0;
- result->hole= NULL;
- result->contour= NULL;
- return;
- }
-
- /* Identify potentialy contributing contours */
- if (((op == GPC_INT) || (op == GPC_DIFF))
- && (subj->num_contours > 0) && (clip->num_contours > 0))
- minimax_test(subj, clip, op);
-
- /* Build LMT */
- if (subj->num_contours > 0)
- s_heap= build_lmt(&lmt, &sbtree, &sbt_entries, subj, SUBJ, op);
- if (clip->num_contours > 0)
- c_heap= build_lmt(&lmt, &sbtree, &sbt_entries, clip, CLIP, op);
-
- /* Return a NULL result if no contours contribute */
- if (lmt == NULL)
- {
- result->num_contours= 0;
- result->hole= NULL;
- result->contour= NULL;
- reset_lmt(&lmt);
- FREE(s_heap);
- FREE(c_heap);
- return;
- }
-
- /* Build scanbeam table from scanbeam tree */
- MALLOC(sbt, sbt_entries * sizeof(double), "sbt creation", double);
- build_sbt(&scanbeam, sbt, sbtree);
- scanbeam= 0;
- free_sbtree(&sbtree);
-
- /* Allow pointer re-use without causing memory leak */
- if (subj == result)
- gpc_free_polygon(subj);
- if (clip == result)
- gpc_free_polygon(clip);
-
- /* Invert clip polygon for difference operation */
- if (op == GPC_DIFF)
- parity[CLIP]= RIGHT;
-
- local_min= lmt;
-
- /* Process each scanbeam */
- while (scanbeam < sbt_entries)
- {
- /* Set yb and yt to the bottom and top of the scanbeam */
- yb= sbt[scanbeam++];
- if (scanbeam < sbt_entries)
- {
- yt= sbt[scanbeam];
- dy= yt - yb;
- }
-
- /* === SCANBEAM BOUNDARY PROCESSING ================================ */
-
- /* If LMT node corresponding to yb exists */
- if (local_min)
- {
- if (local_min->y == yb)
- {
- /* Add edges starting at this local minimum to the AET */
- for (edge= local_min->first_bound; edge; edge= edge->next_bound)
- add_edge_to_aet(&aet, edge, NULL);
-
- local_min= local_min->next;
- }
- }
-
- /* Set dummy previous x value */
- px= -DBL_MAX;
-
- /* Create bundles within AET */
- e0= aet;
- e1= aet;
-
- /* Set up bundle fields of first edge */
- aet->bundle[ABOVE][ aet->type]= (aet->top.y != yb);
- aet->bundle[ABOVE][!aet->type]= FALSE;
- aet->bstate[ABOVE]= UNBUNDLED;
-
- for (next_edge= aet->next; next_edge; next_edge= next_edge->next)
- {
- /* Set up bundle fields of next edge */
- next_edge->bundle[ABOVE][ next_edge->type]= (next_edge->top.y != yb);
- next_edge->bundle[ABOVE][!next_edge->type]= FALSE;
- next_edge->bstate[ABOVE]= UNBUNDLED;
-
- /* Bundle edges above the scanbeam boundary if they coincide */
- if (next_edge->bundle[ABOVE][next_edge->type])
- {
- if (EQ(e0->xb, next_edge->xb) && EQ(e0->dx, next_edge->dx)
- && (e0->top.y != yb))
- {
- next_edge->bundle[ABOVE][ next_edge->type]^=
- e0->bundle[ABOVE][ next_edge->type];
- next_edge->bundle[ABOVE][!next_edge->type]=
- e0->bundle[ABOVE][!next_edge->type];
- next_edge->bstate[ABOVE]= BUNDLE_HEAD;
- e0->bundle[ABOVE][CLIP]= FALSE;
- e0->bundle[ABOVE][SUBJ]= FALSE;
- e0->bstate[ABOVE]= BUNDLE_TAIL;
- }
- e0= next_edge;
- }
- }
-
- horiz[CLIP]= NH;
- horiz[SUBJ]= NH;
-
- /* Process each edge at this scanbeam boundary */
- for (edge= aet; edge; edge= edge->next)
- {
- exists[CLIP]= edge->bundle[ABOVE][CLIP] +
- (edge->bundle[BELOW][CLIP] << 1);
- exists[SUBJ]= edge->bundle[ABOVE][SUBJ] +
- (edge->bundle[BELOW][SUBJ] << 1);
-
- if (exists[CLIP] || exists[SUBJ])
- {
- /* Set bundle side */
- edge->bside[CLIP]= parity[CLIP];
- edge->bside[SUBJ]= parity[SUBJ];
-
- /* Determine contributing status and quadrant occupancies */
- switch (op)
- {
- case GPC_DIFF:
- case GPC_INT:
- contributing= (exists[CLIP] && (parity[SUBJ] || horiz[SUBJ]))
- || (exists[SUBJ] && (parity[CLIP] || horiz[CLIP]))
- || (exists[CLIP] && exists[SUBJ]
- && (parity[CLIP] == parity[SUBJ]));
- br= (parity[CLIP])
- && (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- && (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- && (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- && (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- case GPC_XOR:
- contributing= exists[CLIP] || exists[SUBJ];
- br= (parity[CLIP])
- ^ (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- ^ (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- ^ (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- ^ (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- case GPC_UNION:
- contributing= (exists[CLIP] && (!parity[SUBJ] || horiz[SUBJ]))
- || (exists[SUBJ] && (!parity[CLIP] || horiz[CLIP]))
- || (exists[CLIP] && exists[SUBJ]
- && (parity[CLIP] == parity[SUBJ]));
- br= (parity[CLIP])
- || (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- || (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- || (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- || (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- }
-
- /* Update parity */
- parity[CLIP]^= edge->bundle[ABOVE][CLIP];
- parity[SUBJ]^= edge->bundle[ABOVE][SUBJ];
-
- /* Update horizontal state */
- if (exists[CLIP])
- horiz[CLIP]=
- next_h_state[horiz[CLIP]]
- [((exists[CLIP] - 1) << 1) + parity[CLIP]];
- if (exists[SUBJ])
- horiz[SUBJ]=
- next_h_state[horiz[SUBJ]]
- [((exists[SUBJ] - 1) << 1) + parity[SUBJ]];
-
- vclass= tr + (tl << 1) + (br << 2) + (bl << 3);
-
- if (contributing)
- {
- xb= edge->xb;
-
- switch (vclass)
- {
- case EMN:
- case IMN:
- add_local_min(&out_poly, edge, xb, yb);
- px= xb;
- cf= edge->outp[ABOVE];
- break;
- case ERI:
- if (xb != px)
- {
- add_right(cf, xb, yb);
- px= xb;
- }
- edge->outp[ABOVE]= cf;
- cf= NULL;
- break;
- case ELI:
- add_left(edge->outp[BELOW], xb, yb);
- px= xb;
- cf= edge->outp[BELOW];
- break;
- case EMX:
- if (xb != px)
- {
- add_left(cf, xb, yb);
- px= xb;
- }
- merge_right(cf, edge->outp[BELOW], out_poly);
- cf= NULL;
- break;
- case ILI:
- if (xb != px)
- {
- add_left(cf, xb, yb);
- px= xb;
- }
- edge->outp[ABOVE]= cf;
- cf= NULL;
- break;
- case IRI:
- add_right(edge->outp[BELOW], xb, yb);
- px= xb;
- cf= edge->outp[BELOW];
- edge->outp[BELOW]= NULL;
- break;
- case IMX:
- if (xb != px)
- {
- add_right(cf, xb, yb);
- px= xb;
- }
- merge_left(cf, edge->outp[BELOW], out_poly);
- cf= NULL;
- edge->outp[BELOW]= NULL;
- break;
- case IMM:
- if (xb != px)
- {
- add_right(cf, xb, yb);
- px= xb;
- }
- merge_left(cf, edge->outp[BELOW], out_poly);
- edge->outp[BELOW]= NULL;
- add_local_min(&out_poly, edge, xb, yb);
- cf= edge->outp[ABOVE];
- break;
- case EMM:
- if (xb != px)
- {
- add_left(cf, xb, yb);
- px= xb;
- }
- merge_right(cf, edge->outp[BELOW], out_poly);
- edge->outp[BELOW]= NULL;
- add_local_min(&out_poly, edge, xb, yb);
- cf= edge->outp[ABOVE];
- break;
- case LED:
- if (edge->bot.y == yb)
- add_left(edge->outp[BELOW], xb, yb);
- edge->outp[ABOVE]= edge->outp[BELOW];
- px= xb;
- break;
- case RED:
- if (edge->bot.y == yb)
- add_right(edge->outp[BELOW], xb, yb);
- edge->outp[ABOVE]= edge->outp[BELOW];
- px= xb;
- break;
- default:
- break;
- } /* End of switch */
- } /* End of contributing conditional */
- } /* End of edge exists conditional */
- } /* End of AET loop */
-
- /* Delete terminating edges from the AET, otherwise compute xt */
- for (edge= aet; edge; edge= edge->next)
- {
- if (edge->top.y == yb)
- {
- prev_edge= edge->prev;
- next_edge= edge->next;
- if (prev_edge)
- prev_edge->next= next_edge;
- else
- aet= next_edge;
- if (next_edge)
- next_edge->prev= prev_edge;
-
- /* Copy bundle head state to the adjacent tail edge if required */
- if ((edge->bstate[BELOW] == BUNDLE_HEAD) && prev_edge)
- {
- if (prev_edge->bstate[BELOW] == BUNDLE_TAIL)
- {
- prev_edge->outp[BELOW]= edge->outp[BELOW];
- prev_edge->bstate[BELOW]= UNBUNDLED;
- if (prev_edge->prev)
- if (prev_edge->prev->bstate[BELOW] == BUNDLE_TAIL)
- prev_edge->bstate[BELOW]= BUNDLE_HEAD;
- }
- }
- }
- else
- {
- if (edge->top.y == yt)
- edge->xt= edge->top.x;
- else
- edge->xt= edge->bot.x + edge->dx * (yt - edge->bot.y);
- }
- }
-
- if (scanbeam < sbt_entries)
- {
- /* === SCANBEAM INTERIOR PROCESSING ============================== */
-
- build_intersection_table(&it, aet, dy);
-
- /* Process each node in the intersection table */
- for (intersect= it; intersect; intersect= intersect->next)
- {
- e0= intersect->ie[0];
- e1= intersect->ie[1];
-
- /* Only generate output for contributing intersections */
- if ((e0->bundle[ABOVE][CLIP] || e0->bundle[ABOVE][SUBJ])
- && (e1->bundle[ABOVE][CLIP] || e1->bundle[ABOVE][SUBJ]))
- {
- p= e0->outp[ABOVE];
- q= e1->outp[ABOVE];
- ix= intersect->point.x;
- iy= intersect->point.y + yb;
-
- in[CLIP]= ( e0->bundle[ABOVE][CLIP] && !e0->bside[CLIP])
- || ( e1->bundle[ABOVE][CLIP] && e1->bside[CLIP])
- || (!e0->bundle[ABOVE][CLIP] && !e1->bundle[ABOVE][CLIP]
- && e0->bside[CLIP] && e1->bside[CLIP]);
- in[SUBJ]= ( e0->bundle[ABOVE][SUBJ] && !e0->bside[SUBJ])
- || ( e1->bundle[ABOVE][SUBJ] && e1->bside[SUBJ])
- || (!e0->bundle[ABOVE][SUBJ] && !e1->bundle[ABOVE][SUBJ]
- && e0->bside[SUBJ] && e1->bside[SUBJ]);
-
- /* Determine quadrant occupancies */
- switch (op)
- {
- case GPC_DIFF:
- case GPC_INT:
- tr= (in[CLIP])
- && (in[SUBJ]);
- tl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP])
- && (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ]);
- br= (in[CLIP] ^ e0->bundle[ABOVE][CLIP])
- && (in[SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- bl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP] ^ e0->bundle[ABOVE][CLIP])
- && (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- break;
- case GPC_XOR:
- tr= (in[CLIP])
- ^ (in[SUBJ]);
- tl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP])
- ^ (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ]);
- br= (in[CLIP] ^ e0->bundle[ABOVE][CLIP])
- ^ (in[SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- bl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP] ^ e0->bundle[ABOVE][CLIP])
- ^ (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- break;
- case GPC_UNION:
- tr= (in[CLIP])
- || (in[SUBJ]);
- tl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP])
- || (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ]);
- br= (in[CLIP] ^ e0->bundle[ABOVE][CLIP])
- || (in[SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- bl= (in[CLIP] ^ e1->bundle[ABOVE][CLIP] ^ e0->bundle[ABOVE][CLIP])
- || (in[SUBJ] ^ e1->bundle[ABOVE][SUBJ] ^ e0->bundle[ABOVE][SUBJ]);
- break;
- }
-
- vclass= tr + (tl << 1) + (br << 2) + (bl << 3);
-
- switch (vclass)
- {
- case EMN:
- add_local_min(&out_poly, e0, ix, iy);
- e1->outp[ABOVE]= e0->outp[ABOVE];
- break;
- case ERI:
- if (p)
- {
- add_right(p, ix, iy);
- e1->outp[ABOVE]= p;
- e0->outp[ABOVE]= NULL;
- }
- break;
- case ELI:
- if (q)
- {
- add_left(q, ix, iy);
- e0->outp[ABOVE]= q;
- e1->outp[ABOVE]= NULL;
- }
- break;
- case EMX:
- if (p && q)
- {
- add_left(p, ix, iy);
- merge_right(p, q, out_poly);
- e0->outp[ABOVE]= NULL;
- e1->outp[ABOVE]= NULL;
- }
- break;
- case IMN:
- add_local_min(&out_poly, e0, ix, iy);
- e1->outp[ABOVE]= e0->outp[ABOVE];
- break;
- case ILI:
- if (p)
- {
- add_left(p, ix, iy);
- e1->outp[ABOVE]= p;
- e0->outp[ABOVE]= NULL;
- }
- break;
- case IRI:
- if (q)
- {
- add_right(q, ix, iy);
- e0->outp[ABOVE]= q;
- e1->outp[ABOVE]= NULL;
- }
- break;
- case IMX:
- if (p && q)
- {
- add_right(p, ix, iy);
- merge_left(p, q, out_poly);
- e0->outp[ABOVE]= NULL;
- e1->outp[ABOVE]= NULL;
- }
- break;
- case IMM:
- if (p && q)
- {
- add_right(p, ix, iy);
- merge_left(p, q, out_poly);
- add_local_min(&out_poly, e0, ix, iy);
- e1->outp[ABOVE]= e0->outp[ABOVE];
- }
- break;
- case EMM:
- if (p && q)
- {
- add_left(p, ix, iy);
- merge_right(p, q, out_poly);
- add_local_min(&out_poly, e0, ix, iy);
- e1->outp[ABOVE]= e0->outp[ABOVE];
- }
- break;
- default:
- break;
- } /* End of switch */
- } /* End of contributing intersection conditional */
-
- /* Swap bundle sides in response to edge crossing */
- if (e0->bundle[ABOVE][CLIP])
- e1->bside[CLIP]= !e1->bside[CLIP];
- if (e1->bundle[ABOVE][CLIP])
- e0->bside[CLIP]= !e0->bside[CLIP];
- if (e0->bundle[ABOVE][SUBJ])
- e1->bside[SUBJ]= !e1->bside[SUBJ];
- if (e1->bundle[ABOVE][SUBJ])
- e0->bside[SUBJ]= !e0->bside[SUBJ];
-
- /* Swap e0 and e1 bundles in the AET */
- prev_edge= e0->prev;
- next_edge= e1->next;
- if (next_edge)
- next_edge->prev= e0;
-
- if (e0->bstate[ABOVE] == BUNDLE_HEAD)
- {
- search= TRUE;
- while (search)
- {
- prev_edge= prev_edge->prev;
- if (prev_edge)
- {
- if (prev_edge->bstate[ABOVE] != BUNDLE_TAIL)
- search= FALSE;
- }
- else
- search= FALSE;
- }
- }
- if (!prev_edge)
- {
- aet->prev= e1;
- e1->next= aet;
- aet= e0->next;
- }
- else
- {
- prev_edge->next->prev= e1;
- e1->next= prev_edge->next;
- prev_edge->next= e0->next;
- }
- e0->next->prev= prev_edge;
- e1->next->prev= e1;
- e0->next= next_edge;
- } /* End of IT loop*/
-
- /* Prepare for next scanbeam */
- for (edge= aet; edge; edge= next_edge)
- {
- next_edge= edge->next;
- succ_edge= edge->succ;
-
- if ((edge->top.y == yt) && succ_edge)
- {
- /* Replace AET edge by its successor */
- succ_edge->outp[BELOW]= edge->outp[ABOVE];
- succ_edge->bstate[BELOW]= edge->bstate[ABOVE];
- succ_edge->bundle[BELOW][CLIP]= edge->bundle[ABOVE][CLIP];
- succ_edge->bundle[BELOW][SUBJ]= edge->bundle[ABOVE][SUBJ];
- prev_edge= edge->prev;
- if (prev_edge)
- prev_edge->next= succ_edge;
- else
- aet= succ_edge;
- if (next_edge)
- next_edge->prev= succ_edge;
- succ_edge->prev= prev_edge;
- succ_edge->next= next_edge;
- }
- else
- {
- /* Update this edge */
- edge->outp[BELOW]= edge->outp[ABOVE];
- edge->bstate[BELOW]= edge->bstate[ABOVE];
- edge->bundle[BELOW][CLIP]= edge->bundle[ABOVE][CLIP];
- edge->bundle[BELOW][SUBJ]= edge->bundle[ABOVE][SUBJ];
- edge->xb= edge->xt;
- }
- edge->outp[ABOVE]= NULL;
- }
- }
- } /* === END OF SCANBEAM PROCESSING ================================== */
-
- /* Generate result polygon from out_poly */
- result->contour= NULL;
- result->hole= NULL;
- result->num_contours= count_contours(out_poly);
- if (result->num_contours > 0)
- {
- MALLOC(result->hole, result->num_contours
- * sizeof(int), "hole flag table creation", int);
- MALLOC(result->contour, result->num_contours
- * sizeof(gpc_vertex_list), "contour creation", gpc_vertex_list);
-
- c= 0;
- for (poly= out_poly; poly; poly= npoly)
- {
- npoly= poly->next;
- if (poly->active)
- {
- result->hole[c]= poly->proxy->hole;
- result->contour[c].num_vertices= poly->active;
- MALLOC(result->contour[c].vertex,
- result->contour[c].num_vertices * sizeof(gpc_vertex),
- "vertex creation", gpc_vertex);
-
- v= result->contour[c].num_vertices - 1;
- for (vtx= poly->proxy->v[LEFT]; vtx; vtx= nv)
- {
- nv= vtx->next;
- result->contour[c].vertex[v].x= vtx->x;
- result->contour[c].vertex[v].y= vtx->y;
- FREE(vtx);
- v--;
- }
- c++;
- }
- FREE(poly);
- }
- }
- else
- {
- for (poly= out_poly; poly; poly= npoly)
- {
- npoly= poly->next;
- FREE(poly);
- }
- }
-
- /* Tidy up */
- reset_it(&it);
- reset_lmt(&lmt);
- FREE(c_heap);
- FREE(s_heap);
- FREE(sbt);
-}
-
-
-void gpc_free_tristrip(gpc_tristrip *t)
-{
- int s;
-
- for (s= 0; s < t->num_strips; s++)
- FREE(t->strip[s].vertex);
- FREE(t->strip);
- t->num_strips= 0;
-}
-
-
-void gpc_polygon_to_tristrip(gpc_polygon *s, gpc_tristrip *t)
-{
- gpc_polygon c;
-
- c.num_contours= 0;
- c.hole= NULL;
- c.contour= NULL;
- gpc_tristrip_clip(GPC_DIFF, s, &c, t);
-}
-
-
-void gpc_tristrip_clip(gpc_op op, gpc_polygon *subj, gpc_polygon *clip,
- gpc_tristrip *result)
-{
- sb_tree *sbtree= NULL;
- it_node *it= NULL, *intersect;
- edge_node *edge, *prev_edge, *next_edge, *succ_edge, *e0, *e1;
- edge_node *aet= NULL, *c_heap= NULL, *s_heap= NULL, *cf;
- lmt_node *lmt= NULL, *local_min;
- polygon_node *tlist= NULL, *tn, *tnn, *p, *q;
- vertex_node *lt, *ltn, *rt, *rtn;
- h_state horiz[2];
- vertex_type cft;
- int in[2], exists[2], parity[2]= {LEFT, LEFT};
- int s, v, contributing, search, scanbeam= 0, sbt_entries= 0;
- int vclass, bl, br, tl, tr;
- double *sbt= NULL, xb, px, nx, yb, yt, dy, ix, iy;
-
- /* Test for trivial NULL result cases */
- if (((subj->num_contours == 0) && (clip->num_contours == 0))
- || ((subj->num_contours == 0) && ((op == GPC_INT) || (op == GPC_DIFF)))
- || ((clip->num_contours == 0) && (op == GPC_INT)))
- {
- result->num_strips= 0;
- result->strip= NULL;
- return;
- }
-
- /* Identify potentialy contributing contours */
- if (((op == GPC_INT) || (op == GPC_DIFF))
- && (subj->num_contours > 0) && (clip->num_contours > 0))
- minimax_test(subj, clip, op);
-
- /* Build LMT */
- if (subj->num_contours > 0)
- s_heap= build_lmt(&lmt, &sbtree, &sbt_entries, subj, SUBJ, op);
- if (clip->num_contours > 0)
- c_heap= build_lmt(&lmt, &sbtree, &sbt_entries, clip, CLIP, op);
-
- /* Return a NULL result if no contours contribute */
- if (lmt == NULL)
- {
- result->num_strips= 0;
- result->strip= NULL;
- reset_lmt(&lmt);
- FREE(s_heap);
- FREE(c_heap);
- return;
- }
-
- /* Build scanbeam table from scanbeam tree */
- MALLOC(sbt, sbt_entries * sizeof(double), "sbt creation", double);
- build_sbt(&scanbeam, sbt, sbtree);
- scanbeam= 0;
- free_sbtree(&sbtree);
-
- /* Invert clip polygon for difference operation */
- if (op == GPC_DIFF)
- parity[CLIP]= RIGHT;
-
- local_min= lmt;
-
- /* Process each scanbeam */
- while (scanbeam < sbt_entries)
- {
- /* Set yb and yt to the bottom and top of the scanbeam */
- yb= sbt[scanbeam++];
- if (scanbeam < sbt_entries)
- {
- yt= sbt[scanbeam];
- dy= yt - yb;
- }
-
- /* === SCANBEAM BOUNDARY PROCESSING ================================ */
-
- /* If LMT node corresponding to yb exists */
- if (local_min)
- {
- if (local_min->y == yb)
- {
- /* Add edges starting at this local minimum to the AET */
- for (edge= local_min->first_bound; edge; edge= edge->next_bound)
- add_edge_to_aet(&aet, edge, NULL);
-
- local_min= local_min->next;
- }
- }
-
- /* Set dummy previous x value */
- px= -DBL_MAX;
-
- /* Create bundles within AET */
- e0= aet;
- e1= aet;
-
- /* Set up bundle fields of first edge */
- aet->bundle[ABOVE][ aet->type]= (aet->top.y != yb);
- aet->bundle[ABOVE][!aet->type]= FALSE;
- aet->bstate[ABOVE]= UNBUNDLED;
-
- for (next_edge= aet->next; next_edge; next_edge= next_edge->next)
- {
- /* Set up bundle fields of next edge */
- next_edge->bundle[ABOVE][ next_edge->type]= (next_edge->top.y != yb);
- next_edge->bundle[ABOVE][!next_edge->type]= FALSE;
- next_edge->bstate[ABOVE]= UNBUNDLED;
-
- /* Bundle edges above the scanbeam boundary if they coincide */
- if (next_edge->bundle[ABOVE][next_edge->type])
- {
- if (EQ(e0->xb, next_edge->xb) && EQ(e0->dx, next_edge->dx)
- && (e0->top.y != yb))
- {
- next_edge->bundle[ABOVE][ next_edge->type]^=
- e0->bundle[ABOVE][ next_edge->type];
- next_edge->bundle[ABOVE][!next_edge->type]=
- e0->bundle[ABOVE][!next_edge->type];
- next_edge->bstate[ABOVE]= BUNDLE_HEAD;
- e0->bundle[ABOVE][CLIP]= FALSE;
- e0->bundle[ABOVE][SUBJ]= FALSE;
- e0->bstate[ABOVE]= BUNDLE_TAIL;
- }
- e0= next_edge;
- }
- }
-
- horiz[CLIP]= NH;
- horiz[SUBJ]= NH;
-
- /* Process each edge at this scanbeam boundary */
- for (edge= aet; edge; edge= edge->next)
- {
- exists[CLIP]= edge->bundle[ABOVE][CLIP] +
- (edge->bundle[BELOW][CLIP] << 1);
- exists[SUBJ]= edge->bundle[ABOVE][SUBJ] +
- (edge->bundle[BELOW][SUBJ] << 1);
-
- if (exists[CLIP] || exists[SUBJ])
- {
- /* Set bundle side */
- edge->bside[CLIP]= parity[CLIP];
- edge->bside[SUBJ]= parity[SUBJ];
-
- /* Determine contributing status and quadrant occupancies */
- switch (op)
- {
- case GPC_DIFF:
- case GPC_INT:
- contributing= (exists[CLIP] && (parity[SUBJ] || horiz[SUBJ]))
- || (exists[SUBJ] && (parity[CLIP] || horiz[CLIP]))
- || (exists[CLIP] && exists[SUBJ]
- && (parity[CLIP] == parity[SUBJ]));
- br= (parity[CLIP])
- && (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- && (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- && (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- && (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- case GPC_XOR:
- contributing= exists[CLIP] || exists[SUBJ];
- br= (parity[CLIP])
- ^ (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- ^ (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- ^ (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- ^ (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- case GPC_UNION:
- contributing= (exists[CLIP] && (!parity[SUBJ] || horiz[SUBJ]))
- || (exists[SUBJ] && (!parity[CLIP] || horiz[CLIP]))
- || (exists[CLIP] && exists[SUBJ]
- && (parity[CLIP] == parity[SUBJ]));
- br= (parity[CLIP])
- || (parity[SUBJ]);
- bl= (parity[CLIP] ^ edge->bundle[ABOVE][CLIP])
- || (parity[SUBJ] ^ edge->bundle[ABOVE][SUBJ]);
- tr= (parity[CLIP] ^ (horiz[CLIP]!=NH))
- || (parity[SUBJ] ^ (horiz[SUBJ]!=NH));
- tl= (parity[CLIP] ^ (horiz[CLIP]!=NH) ^ edge->bundle[BELOW][CLIP])
- || (parity[SUBJ] ^ (horiz[SUBJ]!=NH) ^ edge->bundle[BELOW][SUBJ]);
- break;
- }
-
- /* Update parity */
- parity[CLIP]^= edge->bundle[ABOVE][CLIP];
- parity[SUBJ]^= edge->bundle[ABOVE][SUBJ];
-
- /* Update horizontal state */
- if (exists[CLIP])
- horiz[CLIP]=
- next_h_state[horiz[CLIP]]
- [((exists[CLIP] - 1) << 1) + parity[CLIP]];
- if (exists[SUBJ])
- horiz[SUBJ]=
- next_h_state[horiz[SUBJ]]
- [((exists[SUBJ] - 1) << 1) + parity[SUBJ]];
-
- vclass= tr + (tl << 1) + (br << 2) + (bl << 3);
-
- if (contributing)
- {
- xb= edge->xb;
-
- switch (vclass)
- {
- case EMN:
- new_tristrip(&tlist, edge, xb, yb);
- cf= edge;
- break;
- case ERI:
- edge->outp[ABOVE]= cf->outp[ABOVE];
- if (xb != cf->xb)
- VERTEX(edge, ABOVE, RIGHT, xb, yb);
- cf= NULL;
- break;
- case ELI:
- VERTEX(edge, BELOW, LEFT, xb, yb);
- edge->outp[ABOVE]= NULL;
- cf= edge;
- break;
- case EMX:
- if (xb != cf->xb)
- VERTEX(edge, BELOW, RIGHT, xb, yb);
- edge->outp[ABOVE]= NULL;
- cf= NULL;
- break;
- case IMN:
- if (cft == LED)
- {
- if (cf->bot.y != yb)
- VERTEX(cf, BELOW, LEFT, cf->xb, yb);
- new_tristrip(&tlist, cf, cf->xb, yb);
- }
- edge->outp[ABOVE]= cf->outp[ABOVE];
- VERTEX(edge, ABOVE, RIGHT, xb, yb);
- break;
[ *** diff truncated: 595 lines dropped *** ]
