skia2/tests/TopoSortTest.cpp

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/*
* Copyright 2015 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "include/utils/SkRandom.h"
#include "src/gpu/GrTTopoSort.h"
#include "tests/Test.h"
#include "tools/ToolUtils.h"
typedef void (*CreateGraphPF)(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph);
/* Simple diamond
* 3
* . .
* / \
* 1 2
* . .
* \ /
* 0
*/
static void create_graph0(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 4);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[0]->dependsOn((*graph)[2].get());
(*graph)[1]->dependsOn((*graph)[3].get());
(*graph)[2]->dependsOn((*graph)[3].get());
}
/* Simple chain
* 3
* ^
* |
* 2
* ^
* |
* 1
* ^
* |
* 0
*/
static void create_graph1(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 4);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[1]->dependsOn((*graph)[2].get());
(*graph)[2]->dependsOn((*graph)[3].get());
}
/* Simple Loop
* 2
* / .
* / \
* . \
* 0 ---> 1
*/
static void create_graph2(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 3);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[1]->dependsOn((*graph)[2].get());
(*graph)[2]->dependsOn((*graph)[0].get());
}
/* Double diamond
* 6
* . .
* / \
* 4 5
* . .
* \ /
* 3
* . .
* / \
* 1 2
* . .
* \ /
* 0
*/
static void create_graph3(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 7);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[0]->dependsOn((*graph)[2].get());
(*graph)[1]->dependsOn((*graph)[3].get());
(*graph)[2]->dependsOn((*graph)[3].get());
(*graph)[3]->dependsOn((*graph)[4].get());
(*graph)[3]->dependsOn((*graph)[5].get());
(*graph)[4]->dependsOn((*graph)[6].get());
(*graph)[5]->dependsOn((*graph)[6].get());
}
/* Two independent diamonds
* 3 7
* . . . .
* / \ / \
* 1 2 5 6
* . . . .
* \ / \ /
* 0 4
*/
static void create_graph4(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 8);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[0]->dependsOn((*graph)[2].get());
(*graph)[1]->dependsOn((*graph)[3].get());
(*graph)[2]->dependsOn((*graph)[3].get());
(*graph)[4]->dependsOn((*graph)[5].get());
(*graph)[4]->dependsOn((*graph)[6].get());
(*graph)[5]->dependsOn((*graph)[7].get());
(*graph)[6]->dependsOn((*graph)[7].get());
}
/* Two linked diamonds w/ two loops
* 5 6
* / . . \
* . \ / .
* 2 3 4
* \ . /
* . / \ .
* 0 1
*/
static void create_graph5(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 7);
(*graph)[0]->dependsOn((*graph)[3].get());
(*graph)[1]->dependsOn((*graph)[3].get());
(*graph)[2]->dependsOn((*graph)[0].get());
(*graph)[3]->dependsOn((*graph)[5].get());
(*graph)[3]->dependsOn((*graph)[6].get());
(*graph)[4]->dependsOn((*graph)[1].get());
(*graph)[5]->dependsOn((*graph)[2].get());
(*graph)[6]->dependsOn((*graph)[4].get());
}
/* Two disjoint loops
* 2 5
* / . / .
* / \ / \
* . \ . \
* 0 ---> 1 3 ---> 4
*/
static void create_graph6(SkTArray<sk_sp<ToolUtils::TopoTestNode>>* graph) {
ToolUtils::TopoTestNode::AllocNodes(graph, 6);
(*graph)[0]->dependsOn((*graph)[1].get());
(*graph)[1]->dependsOn((*graph)[2].get());
(*graph)[2]->dependsOn((*graph)[0].get());
(*graph)[3]->dependsOn((*graph)[4].get());
(*graph)[4]->dependsOn((*graph)[5].get());
(*graph)[5]->dependsOn((*graph)[3].get());
}
DEF_TEST(TopoSort, reporter) {
SkRandom rand;
struct {
CreateGraphPF fCreate;
bool fExpectedResult;
} tests[] = {
{ create_graph0, true },
{ create_graph1, true },
{ create_graph2, false },
{ create_graph3, true },
{ create_graph4, true },
{ create_graph5, false },
{ create_graph6, false },
};
for (size_t i = 0; i < SK_ARRAY_COUNT(tests); ++i) {
SkTArray<sk_sp<ToolUtils::TopoTestNode>> graph;
(tests[i].fCreate)(&graph);
const int numNodes = graph.count();
ToolUtils::TopoTestNode::Shuffle(&graph, &rand);
bool actualResult = GrTTopoSort<ToolUtils::TopoTestNode>(&graph);
REPORTER_ASSERT(reporter, actualResult == tests[i].fExpectedResult);
REPORTER_ASSERT(reporter, numNodes == graph.count());
if (tests[i].fExpectedResult) {
for (const auto& node : graph) {
REPORTER_ASSERT(reporter, node->check());
}
} else {
// When the topological sort fails all the nodes should still appear in the result
// but their order can be somewhat arbitrary.
std::vector<bool> seen(numNodes, false);
for (const auto& node : graph) {
SkASSERT(node);
SkASSERT(!seen[node->id()]);
seen[node->id()] = true;
}
}
//SkDEBUGCODE(print(graph);)
}
}