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/*
* Copyright 2017-2018 Uber Technologies, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/** @file linkedGeo.c
* @brief Linked data structure for geo data
*/
#include "linkedGeo.h"
#include <assert.h>
#include <stdlib.h>
#include "alloc.h"
#include "geoCoord.h"
#include "h3api.h"
/**
* Add a linked polygon to the current polygon
* @param polygon Polygon to add link to
* @return Pointer to new polygon
*/
LinkedGeoPolygon* addNewLinkedPolygon(LinkedGeoPolygon* polygon) {
assert(polygon->next == NULL);
LinkedGeoPolygon* next = H3_MEMORY(calloc)(1, sizeof(*next));
assert(next != NULL);
polygon->next = next;
return next;
}
/**
* Add a new linked loop to the current polygon
* @param polygon Polygon to add loop to
* @return Pointer to loop
*/
LinkedGeoLoop* addNewLinkedLoop(LinkedGeoPolygon* polygon) {
LinkedGeoLoop* loop = H3_MEMORY(calloc)(1, sizeof(*loop));
assert(loop != NULL);
return addLinkedLoop(polygon, loop);
}
/**
* Add an existing linked loop to the current polygon
* @param polygon Polygon to add loop to
* @return Pointer to loop
*/
LinkedGeoLoop* addLinkedLoop(LinkedGeoPolygon* polygon, LinkedGeoLoop* loop) {
LinkedGeoLoop* last = polygon->last;
if (last == NULL) {
assert(polygon->first == NULL);
polygon->first = loop;
} else {
last->next = loop;
}
polygon->last = loop;
return loop;
}
/**
* Add a new linked coordinate to the current loop
* @param loop Loop to add coordinate to
* @param vertex Coordinate to add
* @return Pointer to the coordinate
*/
LinkedGeoCoord* addLinkedCoord(LinkedGeoLoop* loop, const GeoCoord* vertex) {
LinkedGeoCoord* coord = H3_MEMORY(malloc)(sizeof(*coord));
assert(coord != NULL);
*coord = (LinkedGeoCoord){.vertex = *vertex, .next = NULL};
LinkedGeoCoord* last = loop->last;
if (last == NULL) {
assert(loop->first == NULL);
loop->first = coord;
} else {
last->next = coord;
}
loop->last = coord;
return coord;
}
/**
* Free all allocated memory for a linked geo loop. The caller is
* responsible for freeing memory allocated to input loop struct.
* @param loop Loop to free
*/
void destroyLinkedGeoLoop(LinkedGeoLoop* loop) {
LinkedGeoCoord* nextCoord;
for (LinkedGeoCoord* currentCoord = loop->first; currentCoord != NULL;
currentCoord = nextCoord) {
nextCoord = currentCoord->next;
H3_MEMORY(free)(currentCoord);
}
}
/**
* Free all allocated memory for a linked geo structure. The caller is
* responsible for freeing memory allocated to input polygon struct.
* @param polygon Pointer to the first polygon in the structure
*/
void H3_EXPORT(destroyLinkedPolygon)(LinkedGeoPolygon* polygon) {
// flag to skip the input polygon
bool skip = true;
LinkedGeoPolygon* nextPolygon;
LinkedGeoLoop* nextLoop;
for (LinkedGeoPolygon* currentPolygon = polygon; currentPolygon != NULL;
currentPolygon = nextPolygon) {
for (LinkedGeoLoop* currentLoop = currentPolygon->first;
currentLoop != NULL; currentLoop = nextLoop) {
destroyLinkedGeoLoop(currentLoop);
nextLoop = currentLoop->next;
H3_MEMORY(free)(currentLoop);
}
nextPolygon = currentPolygon->next;
if (skip) {
// do not free the input polygon
skip = false;
} else {
H3_MEMORY(free)(currentPolygon);
}
}
}
/**
* Count the number of polygons in a linked list
* @param polygon Starting polygon
* @return Count
*/
int countLinkedPolygons(LinkedGeoPolygon* polygon) {
int count = 0;
while (polygon != NULL) {
count++;
polygon = polygon->next;
}
return count;
}
/**
* Count the number of linked loops in a polygon
* @param polygon Polygon to count loops for
* @return Count
*/
int countLinkedLoops(LinkedGeoPolygon* polygon) {
LinkedGeoLoop* loop = polygon->first;
int count = 0;
while (loop != NULL) {
count++;
loop = loop->next;
}
return count;
}
/**
* Count the number of coordinates in a loop
* @param loop Loop to count coordinates for
* @return Count
*/
int countLinkedCoords(LinkedGeoLoop* loop) {
LinkedGeoCoord* coord = loop->first;
int count = 0;
while (coord != NULL) {
count++;
coord = coord->next;
}
return count;
}
/**
* Count the number of polygons containing a given loop.
* @param loop Loop to count containers for
* @param polygons Polygons to test
* @param bboxes Bounding boxes for polygons, used in point-in-poly check
* @param polygonCount Number of polygons in the test array
* @return Number of polygons containing the loop
*/
static int countContainers(const LinkedGeoLoop* loop,
const LinkedGeoPolygon** polygons,
const BBox** bboxes, const int polygonCount) {
int containerCount = 0;
for (int i = 0; i < polygonCount; i++) {
if (loop != polygons[i]->first &&
pointInsideLinkedGeoLoop(polygons[i]->first, bboxes[i],
&loop->first->vertex)) {
containerCount++;
}
}
return containerCount;
}
/**
* Given a list of nested containers, find the one most deeply nested.
* @param polygons Polygon containers to check
* @param bboxes Bounding boxes for polygons, used in point-in-poly check
* @param polygonCount Number of polygons in the list
* @return Deepest container, or null if list is empty
*/
static const LinkedGeoPolygon* findDeepestContainer(
const LinkedGeoPolygon** polygons, const BBox** bboxes,
const int polygonCount) {
// Set the initial return value to the first candidate
const LinkedGeoPolygon* parent = polygonCount > 0 ? polygons[0] : NULL;
// If we have multiple polygons, they must be nested inside each other.
// Find the innermost polygon by taking the one with the most containers
// in the list.
if (polygonCount > 1) {
int max = -1;
for (int i = 0; i < polygonCount; i++) {
int count = countContainers(polygons[i]->first, polygons, bboxes,
polygonCount);
if (count > max) {
parent = polygons[i];
max = count;
}
}
}
return parent;
}
/**
* Find the polygon to which a given hole should be allocated. Note that this
* function will return null if no parent is found.
* @param loop Inner loop describing a hole
* @param polygon Head of a linked list of polygons to check
* @param bboxes Bounding boxes for polygons, used in point-in-poly check
* @param polygonCount Number of polygons to check
* @return Pointer to parent polygon, or null if not found
*/
static const LinkedGeoPolygon* findPolygonForHole(
const LinkedGeoLoop* loop, const LinkedGeoPolygon* polygon,
const BBox* bboxes, const int polygonCount) {
// Early exit with no polygons
if (polygonCount == 0) {
return NULL;
}
// Initialize arrays for candidate loops and their bounding boxes
const LinkedGeoPolygon** candidates =
H3_MEMORY(malloc)(polygonCount * sizeof(LinkedGeoPolygon*));
assert(candidates != NULL);
const BBox** candidateBBoxes =
H3_MEMORY(malloc)(polygonCount * sizeof(BBox*));
assert(candidateBBoxes != NULL);
// Find all polygons that contain the loop
int candidateCount = 0;
int index = 0;
while (polygon) {
// We are guaranteed not to overlap, so just test the first point
if (pointInsideLinkedGeoLoop(polygon->first, &bboxes[index],
&loop->first->vertex)) {
candidates[candidateCount] = polygon;
candidateBBoxes[candidateCount] = &bboxes[index];
candidateCount++;
}
polygon = polygon->next;
index++;
}
// The most deeply nested container is the immediate parent
const LinkedGeoPolygon* parent =
findDeepestContainer(candidates, candidateBBoxes, candidateCount);
// Free allocated memory
H3_MEMORY(free)(candidates);
H3_MEMORY(free)(candidateBBoxes);
return parent;
}
/**
* Normalize a LinkedGeoPolygon in-place into a structure following GeoJSON
* MultiPolygon rules: Each polygon must have exactly one outer loop, which
* must be first in the list, followed by any holes. Holes in this algorithm
* are identified by winding order (holes are clockwise), which is guaranteed
* by the h3SetToVertexGraph algorithm.
*
* Input to this function is assumed to be a single polygon including all
* loops to normalize. It's assumed that a valid arrangement is possible.
*
* @param root Root polygon including all loops
* @return 0 on success, or an error code > 0 for invalid input
*/
int normalizeMultiPolygon(LinkedGeoPolygon* root) {
// We assume that the input is a single polygon with loops;
// if it has multiple polygons, don't touch it
if (root->next) {
return NORMALIZATION_ERR_MULTIPLE_POLYGONS;
}
// Count loops, exiting early if there's only one
int loopCount = countLinkedLoops(root);
if (loopCount <= 1) {
return NORMALIZATION_SUCCESS;
}
int resultCode = NORMALIZATION_SUCCESS;
LinkedGeoPolygon* polygon = NULL;
LinkedGeoLoop* next;
int innerCount = 0;
int outerCount = 0;
// Create an array to hold all of the inner loops. Note that
// this array will never be full, as there will always be fewer
// inner loops than outer loops.
LinkedGeoLoop** innerLoops =
H3_MEMORY(malloc)(loopCount * sizeof(LinkedGeoLoop*));
assert(innerLoops != NULL);
// Create an array to hold the bounding boxes for the outer loops
BBox* bboxes = H3_MEMORY(malloc)(loopCount * sizeof(BBox));
assert(bboxes != NULL);
// Get the first loop and unlink it from root
LinkedGeoLoop* loop = root->first;
*root = (LinkedGeoPolygon){0};
// Iterate over all loops, moving inner loops into an array and
// assigning outer loops to new polygons
while (loop) {
if (isClockwiseLinkedGeoLoop(loop)) {
innerLoops[innerCount] = loop;
innerCount++;
} else {
polygon = polygon == NULL ? root : addNewLinkedPolygon(polygon);
addLinkedLoop(polygon, loop);
bboxFromLinkedGeoLoop(loop, &bboxes[outerCount]);
outerCount++;
}
// get the next loop and unlink it from this one
next = loop->next;
loop->next = NULL;
loop = next;
}
// Find polygon for each inner loop and assign the hole to it
for (int i = 0; i < innerCount; i++) {
polygon = (LinkedGeoPolygon*)findPolygonForHole(innerLoops[i], root,
bboxes, outerCount);
if (polygon) {
addLinkedLoop(polygon, innerLoops[i]);
} else {
// If we can't find a polygon (possible with invalid input), then
// we need to release the memory for the hole, because the loop has
// been unlinked from the root and the caller will no longer have
// a way to destroy it with destroyLinkedPolygon.
destroyLinkedGeoLoop(innerLoops[i]);
H3_MEMORY(free)(innerLoops[i]);
resultCode = NORMALIZATION_ERR_UNASSIGNED_HOLES;
}
}
// Free allocated memory
H3_MEMORY(free)(innerLoops);
H3_MEMORY(free)(bboxes);
return resultCode;
}
// Define macros used in polygon algos for LinkedGeoLoop
#define TYPE LinkedGeoLoop
#define INIT_ITERATION INIT_ITERATION_LINKED_LOOP
#define ITERATE ITERATE_LINKED_LOOP
#define IS_EMPTY IS_EMPTY_LINKED_LOOP
#include "polygonAlgos.h"
#undef TYPE
#undef IS_EMPTY
#undef INIT_ITERATION
#undef ITERATE
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