mirror of
https://github.com/microsoft/vcpkg.git
synced 2024-12-19 02:27:49 +08:00
419 lines
18 KiB
Diff
419 lines
18 KiB
Diff
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triangle.c | 116 ++++++++++++++++++++++++++-----------------------------------
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triangle.h | 29 +++++++++-------
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2 files changed, 66 insertions(+), 79 deletions(-)
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diff --git a/triangle.c b/triangle.c
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index f7a5700..084902e 100644
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--- a/triangle.c
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+++ b/triangle.c
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@@ -194,27 +194,8 @@
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/* */
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/*****************************************************************************/
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-/* For single precision (which will save some memory and reduce paging), */
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-/* define the symbol SINGLE by using the -DSINGLE compiler switch or by */
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-/* writing "#define SINGLE" below. */
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-/* */
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-/* For double precision (which will allow you to refine meshes to a smaller */
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-/* edge length), leave SINGLE undefined. */
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-/* */
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-/* Double precision uses more memory, but improves the resolution of the */
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-/* meshes you can generate with Triangle. It also reduces the likelihood */
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-/* of a floating exception due to overflow. Finally, it is much faster */
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-/* than single precision on 64-bit architectures like the DEC Alpha. I */
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-/* recommend double precision unless you want to generate a mesh for which */
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-/* you do not have enough memory. */
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-
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-/* #define SINGLE */
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-
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-#ifdef SINGLE
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-#define REAL float
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-#else /* not SINGLE */
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#define REAL double
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-#endif /* not SINGLE */
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+#define VOID void
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/* If yours is not a Unix system, define the NO_TIMER compiler switch to */
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/* remove the Unix-specific timing code. */
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@@ -308,12 +289,6 @@
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#define DEADVERTEX -32768
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#define UNDEADVERTEX -32767
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-/* The next line is used to outsmart some very stupid compilers. If your */
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-/* compiler is smarter, feel free to replace the "int" with "void". */
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-/* Not that it matters. */
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-
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-#define VOID int
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-
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/* Two constants for algorithms based on random sampling. Both constants */
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/* have been chosen empirically to optimize their respective algorithms. */
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@@ -340,6 +315,7 @@
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#define ONETHIRD 0.333333333333333333333333333333333333333333333333333333333333
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+#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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@@ -938,16 +914,16 @@ int minus1mod3[3] = {2, 0, 1};
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/* extracted from the two least significant bits of the pointer. */
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#define decode(ptr, otri) \
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- (otri).orient = (int) ((unsigned long) (ptr) & (unsigned long) 3l); \
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+ (otri).orient = (int) ((uintptr_t) (ptr) & (uintptr_t) 3l); \
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(otri).tri = (triangle *) \
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- ((unsigned long) (ptr) ^ (unsigned long) (otri).orient)
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+ ((uintptr_t) (ptr) ^ (uintptr_t) (otri).orient)
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/* encode() compresses an oriented triangle into a single pointer. It */
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/* relies on the assumption that all triangles are aligned to four-byte */
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/* boundaries, so the two least significant bits of (otri).tri are zero. */
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#define encode(otri) \
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- (triangle) ((unsigned long) (otri).tri | (unsigned long) (otri).orient)
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+ (triangle) ((uintptr_t) (otri).tri | (uintptr_t) (otri).orient)
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/* The following handle manipulation primitives are all described by Guibas */
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/* and Stolfi. However, Guibas and Stolfi use an edge-based data */
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@@ -1111,16 +1087,16 @@ int minus1mod3[3] = {2, 0, 1};
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#define infect(otri) \
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(otri).tri[6] = (triangle) \
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- ((unsigned long) (otri).tri[6] | (unsigned long) 2l)
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+ ((uintptr_t) (otri).tri[6] | (uintptr_t) 2l)
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#define uninfect(otri) \
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(otri).tri[6] = (triangle) \
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- ((unsigned long) (otri).tri[6] & ~ (unsigned long) 2l)
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+ ((uintptr_t) (otri).tri[6] & ~ (uintptr_t) 2l)
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/* Test a triangle for viral infection. */
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#define infected(otri) \
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- (((unsigned long) (otri).tri[6] & (unsigned long) 2l) != 0l)
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+ (((uintptr_t) (otri).tri[6] & (uintptr_t) 2l) != 0l)
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/* Check or set a triangle's attributes. */
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@@ -1158,16 +1134,16 @@ int minus1mod3[3] = {2, 0, 1};
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/* are masked out to produce the real pointer. */
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#define sdecode(sptr, osub) \
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- (osub).ssorient = (int) ((unsigned long) (sptr) & (unsigned long) 1l); \
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+ (osub).ssorient = (int) ((uintptr_t) (sptr) & (uintptr_t) 1l); \
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(osub).ss = (subseg *) \
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- ((unsigned long) (sptr) & ~ (unsigned long) 3l)
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+ ((uintptr_t) (sptr) & ~ (uintptr_t) 3l)
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/* sencode() compresses an oriented subsegment into a single pointer. It */
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/* relies on the assumption that all subsegments are aligned to two-byte */
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/* boundaries, so the least significant bit of (osub).ss is zero. */
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#define sencode(osub) \
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- (subseg) ((unsigned long) (osub).ss | (unsigned long) (osub).ssorient)
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+ (subseg) ((uintptr_t) (osub).ss | (uintptr_t) (osub).ssorient)
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/* ssym() toggles the orientation of a subsegment. */
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@@ -3891,7 +3867,7 @@ struct memorypool *pool;
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#endif /* not ANSI_DECLARATORS */
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{
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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pool->items = 0;
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pool->maxitems = 0;
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@@ -3899,11 +3875,11 @@ struct memorypool *pool;
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/* Set the currently active block. */
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pool->nowblock = pool->firstblock;
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/* Find the first item in the pool. Increment by the size of (VOID *). */
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- alignptr = (unsigned long) (pool->nowblock + 1);
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+ alignptr = (uintptr_t) (pool->nowblock + 1);
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/* Align the item on an `alignbytes'-byte boundary. */
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pool->nextitem = (VOID *)
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- (alignptr + (unsigned long) pool->alignbytes -
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- (alignptr % (unsigned long) pool->alignbytes));
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+ (alignptr + (uintptr_t) pool->alignbytes -
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+ (alignptr % (uintptr_t) pool->alignbytes));
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/* There are lots of unallocated items left in this block. */
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pool->unallocateditems = pool->itemsfirstblock;
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/* The stack of deallocated items is empty. */
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@@ -4008,7 +3984,7 @@ struct memorypool *pool;
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{
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VOID *newitem;
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VOID **newblock;
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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/* First check the linked list of dead items. If the list is not */
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/* empty, allocate an item from the list rather than a fresh one. */
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@@ -4033,11 +4009,11 @@ struct memorypool *pool;
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pool->nowblock = (VOID **) *(pool->nowblock);
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/* Find the first item in the block. */
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/* Increment by the size of (VOID *). */
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- alignptr = (unsigned long) (pool->nowblock + 1);
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+ alignptr = (uintptr_t) (pool->nowblock + 1);
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/* Align the item on an `alignbytes'-byte boundary. */
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pool->nextitem = (VOID *)
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- (alignptr + (unsigned long) pool->alignbytes -
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- (alignptr % (unsigned long) pool->alignbytes));
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+ (alignptr + (uintptr_t) pool->alignbytes -
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+ (alignptr % (uintptr_t) pool->alignbytes));
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/* There are lots of unallocated items left in this block. */
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pool->unallocateditems = pool->itemsperblock;
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}
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@@ -4092,16 +4068,16 @@ struct memorypool *pool;
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#endif /* not ANSI_DECLARATORS */
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{
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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/* Begin the traversal in the first block. */
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pool->pathblock = pool->firstblock;
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/* Find the first item in the block. Increment by the size of (VOID *). */
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- alignptr = (unsigned long) (pool->pathblock + 1);
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+ alignptr = (uintptr_t) (pool->pathblock + 1);
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/* Align with item on an `alignbytes'-byte boundary. */
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pool->pathitem = (VOID *)
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- (alignptr + (unsigned long) pool->alignbytes -
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- (alignptr % (unsigned long) pool->alignbytes));
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+ (alignptr + (uintptr_t) pool->alignbytes -
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+ (alignptr % (uintptr_t) pool->alignbytes));
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/* Set the number of items left in the current block. */
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pool->pathitemsleft = pool->itemsfirstblock;
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}
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@@ -4129,7 +4105,7 @@ struct memorypool *pool;
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{
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VOID *newitem;
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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/* Stop upon exhausting the list of items. */
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if (pool->pathitem == pool->nextitem) {
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@@ -4141,11 +4117,11 @@ struct memorypool *pool;
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/* Find the next block. */
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pool->pathblock = (VOID **) *(pool->pathblock);
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/* Find the first item in the block. Increment by the size of (VOID *). */
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- alignptr = (unsigned long) (pool->pathblock + 1);
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+ alignptr = (uintptr_t) (pool->pathblock + 1);
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/* Align with item on an `alignbytes'-byte boundary. */
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pool->pathitem = (VOID *)
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- (alignptr + (unsigned long) pool->alignbytes -
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- (alignptr % (unsigned long) pool->alignbytes));
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+ (alignptr + (uintptr_t) pool->alignbytes -
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+ (alignptr % (uintptr_t) pool->alignbytes));
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/* Set the number of items left in the current block. */
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pool->pathitemsleft = pool->itemsperblock;
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}
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@@ -4197,16 +4173,16 @@ int subsegbytes;
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#endif /* not ANSI_DECLARATORS */
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{
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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/* Set up `dummytri', the `triangle' that occupies "outer space." */
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m->dummytribase = (triangle *) trimalloc(trianglebytes +
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m->triangles.alignbytes);
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/* Align `dummytri' on a `triangles.alignbytes'-byte boundary. */
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- alignptr = (unsigned long) m->dummytribase;
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+ alignptr = (uintptr_t) m->dummytribase;
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m->dummytri = (triangle *)
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- (alignptr + (unsigned long) m->triangles.alignbytes -
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- (alignptr % (unsigned long) m->triangles.alignbytes));
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+ (alignptr + (uintptr_t) m->triangles.alignbytes -
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+ (alignptr % (uintptr_t) m->triangles.alignbytes));
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/* Initialize the three adjoining triangles to be "outer space." These */
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/* will eventually be changed by various bonding operations, but their */
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/* values don't really matter, as long as they can legally be */
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@@ -4226,10 +4202,10 @@ int subsegbytes;
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m->dummysubbase = (subseg *) trimalloc(subsegbytes +
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m->subsegs.alignbytes);
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/* Align `dummysub' on a `subsegs.alignbytes'-byte boundary. */
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- alignptr = (unsigned long) m->dummysubbase;
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+ alignptr = (uintptr_t) m->dummysubbase;
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m->dummysub = (subseg *)
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- (alignptr + (unsigned long) m->subsegs.alignbytes -
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- (alignptr % (unsigned long) m->subsegs.alignbytes));
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+ (alignptr + (uintptr_t) m->subsegs.alignbytes -
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+ (alignptr % (uintptr_t) m->subsegs.alignbytes));
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/* Initialize the two adjoining subsegments to be the omnipresent */
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/* subsegment. These will eventually be changed by various bonding */
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/* operations, but their values don't really matter, as long as they */
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@@ -4586,7 +4562,7 @@ int number;
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{
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VOID **getblock;
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char *foundvertex;
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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int current;
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getblock = m->vertices.firstblock;
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@@ -4603,9 +4579,9 @@ int number;
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}
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/* Now find the right vertex. */
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- alignptr = (unsigned long) (getblock + 1);
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- foundvertex = (char *) (alignptr + (unsigned long) m->vertices.alignbytes -
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- (alignptr % (unsigned long) m->vertices.alignbytes));
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+ alignptr = (uintptr_t) (getblock + 1);
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+ foundvertex = (char *) (alignptr + (uintptr_t) m->vertices.alignbytes -
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+ (alignptr % (uintptr_t) m->vertices.alignbytes));
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return (vertex) (foundvertex + m->vertices.itembytes * (number - current));
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}
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@@ -4883,6 +4859,7 @@ struct osub *newsubseg;
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/* */
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/*****************************************************************************/
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+static
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void exactinit()
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{
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REAL half;
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@@ -4956,6 +4933,7 @@ void exactinit()
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/* */
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/*****************************************************************************/
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+static
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#ifdef ANSI_DECLARATORS
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int fast_expansion_sum_zeroelim(int elen, REAL *e, int flen, REAL *f, REAL *h)
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#else /* not ANSI_DECLARATORS */
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@@ -5050,6 +5028,7 @@ REAL *h;
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/* */
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/*****************************************************************************/
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+static
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#ifdef ANSI_DECLARATORS
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int scale_expansion_zeroelim(int elen, REAL *e, REAL b, REAL *h)
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#else /* not ANSI_DECLARATORS */
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@@ -5106,6 +5085,7 @@ REAL *h;
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/* */
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/*****************************************************************************/
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+static
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#ifdef ANSI_DECLARATORS
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REAL estimate(int elen, REAL *e)
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#else /* not ANSI_DECLARATORS */
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@@ -5303,6 +5283,7 @@ vertex pc;
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/* */
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/*****************************************************************************/
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+static
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#ifdef ANSI_DECLARATORS
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REAL incircleadapt(vertex pa, vertex pb, vertex pc, vertex pd, REAL permanent)
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#else /* not ANSI_DECLARATORS */
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@@ -5882,6 +5863,7 @@ REAL permanent;
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return finnow[finlength - 1];
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}
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+static
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#ifdef ANSI_DECLARATORS
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REAL incircle(struct mesh *m, struct behavior *b,
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vertex pa, vertex pb, vertex pc, vertex pd)
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@@ -5964,6 +5946,7 @@ vertex pd;
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/* */
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/*****************************************************************************/
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+static
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#ifdef ANSI_DECLARATORS
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REAL orient3dadapt(vertex pa, vertex pb, vertex pc, vertex pd,
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REAL aheight, REAL bheight, REAL cheight, REAL dheight,
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@@ -6389,6 +6372,7 @@ REAL permanent;
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return finnow[finlength - 1];
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}
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+static
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#ifdef ANSI_DECLARATORS
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REAL orient3d(struct mesh *m, struct behavior *b,
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vertex pa, vertex pb, vertex pc, vertex pd,
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@@ -7649,7 +7633,7 @@ struct otri *searchtri;
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char *firsttri;
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struct otri sampletri;
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vertex torg, tdest;
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- unsigned long alignptr;
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+ uintptr_t alignptr = 0;
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REAL searchdist, dist;
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REAL ahead;
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long samplesperblock, totalsamplesleft, samplesleft;
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@@ -7721,11 +7705,11 @@ struct otri *searchtri;
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population = totalpopulation;
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}
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/* Find a pointer to the first triangle in the block. */
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- alignptr = (unsigned long) (sampleblock + 1);
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+ alignptr = (uintptr_t) (sampleblock + 1);
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firsttri = (char *) (alignptr +
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- (unsigned long) m->triangles.alignbytes -
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+ (uintptr_t) m->triangles.alignbytes -
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(alignptr %
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- (unsigned long) m->triangles.alignbytes));
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+ (uintptr_t) m->triangles.alignbytes));
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/* Choose `samplesleft' randomly sampled triangles in this block. */
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do {
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diff --git a/triangle.h b/triangle.h
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index 9df1f39..8d9c754 100644
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--- a/triangle.h
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+++ b/triangle.h
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@@ -248,16 +248,20 @@
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/* */
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/*****************************************************************************/
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+#ifdef __cplusplus
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+extern "C" {
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+#endif
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+
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struct triangulateio {
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- REAL *pointlist; /* In / out */
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- REAL *pointattributelist; /* In / out */
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+ double *pointlist; /* In / out */
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+ double *pointattributelist; /* In / out */
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int *pointmarkerlist; /* In / out */
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int numberofpoints; /* In / out */
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int numberofpointattributes; /* In / out */
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int *trianglelist; /* In / out */
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- REAL *triangleattributelist; /* In / out */
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- REAL *trianglearealist; /* In only */
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+ double *triangleattributelist; /* In / out */
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+ double *trianglearealist; /* In only */
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int *neighborlist; /* Out only */
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int numberoftriangles; /* In / out */
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int numberofcorners; /* In / out */
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@@ -267,23 +271,22 @@ struct triangulateio {
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int *segmentmarkerlist; /* In / out */
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int numberofsegments; /* In / out */
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|
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- REAL *holelist; /* In / pointer to array copied out */
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+ double *holelist; /* In / pointer to array copied out */
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int numberofholes; /* In / copied out */
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||
|
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||
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- REAL *regionlist; /* In / pointer to array copied out */
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||
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+ double *regionlist; /* In / pointer to array copied out */
|
||
|
int numberofregions; /* In / copied out */
|
||
|
|
||
|
int *edgelist; /* Out only */
|
||
|
int *edgemarkerlist; /* Not used with Voronoi diagram; out only */
|
||
|
- REAL *normlist; /* Used only with Voronoi diagram; out only */
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|
+ double *normlist; /* Used only with Voronoi diagram; out only */
|
||
|
int numberofedges; /* Out only */
|
||
|
};
|
||
|
|
||
|
-#ifdef ANSI_DECLARATORS
|
||
|
void triangulate(char *, struct triangulateio *, struct triangulateio *,
|
||
|
struct triangulateio *);
|
||
|
-void trifree(VOID *memptr);
|
||
|
-#else /* not ANSI_DECLARATORS */
|
||
|
-void triangulate();
|
||
|
-void trifree();
|
||
|
-#endif /* not ANSI_DECLARATORS */
|
||
|
+void trifree(void *memptr);
|
||
|
+
|
||
|
+#ifdef __cplusplus
|
||
|
+}
|
||
|
+#endif
|
||
|
\ No newline at end of file
|