AnimTestbed/tests/AnimGraphResourceTests.cc

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//
// Created by martin on 04.02.22.
//
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#include "AnimGraph/AnimGraph.h"
#include "AnimGraph/AnimGraphEditor.h"
#include "AnimGraph/AnimGraphResource.h"
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#include "catch.hpp"
TEST_CASE("BasicGraph", "[AnimGraphResource]") {
AnimGraphResource graph_resource;
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graph_resource.clear();
graph_resource.m_name = "WalkRunBlendGraph";
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// Prepare graph inputs and outputs
size_t walk_node_index =
graph_resource.addNode(AnimNodeResourceFactory("AnimSampler"));
size_t run_node_index =
graph_resource.addNode(AnimNodeResourceFactory("AnimSampler"));
size_t blend_node_index =
graph_resource.addNode(AnimNodeResourceFactory("Blend2"));
AnimNodeResource& walk_node = graph_resource.m_nodes[walk_node_index];
walk_node.m_name = "WalkAnim";
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AnimNodeResource& run_node = graph_resource.m_nodes[run_node_index];
run_node.m_name = "RunAnim";
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AnimNodeResource& blend_node = graph_resource.m_nodes[blend_node_index];
blend_node.m_name = "BlendWalkRun";
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AnimNodeResource& graph_node = graph_resource.m_nodes[0];
graph_node.m_socket_accessor->RegisterInput<AnimData>("GraphOutput", nullptr);
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REQUIRE(graph_node.m_socket_accessor->m_inputs.size() == 1);
REQUIRE(blend_node.m_socket_accessor->GetInputIndex("Input0") == 0);
REQUIRE(blend_node.m_socket_accessor->GetInputIndex("Input1") == 1);
AnimGraphConnectionResource walk_to_blend;
walk_to_blend.source_node_index = walk_node_index;
walk_to_blend.source_socket_name = "Output";
walk_to_blend.target_node_index = blend_node_index;
walk_to_blend.target_socket_name = "Input0";
graph_resource.m_connections.push_back(walk_to_blend);
AnimGraphConnectionResource run_to_blend;
run_to_blend.source_node_index = run_node_index;
run_to_blend.source_socket_name = "Output";
run_to_blend.target_node_index = blend_node_index;
run_to_blend.target_socket_name = "Input1";
graph_resource.m_connections.push_back(run_to_blend);
AnimGraphConnectionResource blend_to_output;
blend_to_output.source_node_index = blend_node_index;
blend_to_output.source_socket_name = "Output";
blend_to_output.target_node_index = 0;
blend_to_output.target_socket_name = "GraphOutput";
graph_resource.m_connections.push_back(blend_to_output);
graph_resource.saveToFile("WalkGraph.animgraph.json");
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AnimGraph graph = graph_resource.createInstance();
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REQUIRE(graph.m_nodes.size() == 5);
REQUIRE(graph.m_nodes[0]->m_node_type_name == "BlendTree");
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REQUIRE(graph.m_nodes[1]->m_node_type_name == "BlendTree");
REQUIRE(graph.m_nodes[2]->m_node_type_name == "AnimSampler");
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REQUIRE(graph.m_nodes[3]->m_node_type_name == "AnimSampler");
REQUIRE(graph.m_nodes[4]->m_node_type_name == "Blend2");
// connections within the graph
AnimSamplerNode* anim_sampler_walk =
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dynamic_cast<AnimSamplerNode*>(graph.m_nodes[2]);
AnimSamplerNode* anim_sampler_run =
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dynamic_cast<AnimSamplerNode*>(graph.m_nodes[3]);
Blend2Node* blend2_instance = dynamic_cast<Blend2Node*>(graph.m_nodes[4]);
// check node input dependencies
size_t anim_sampler_index0 = anim_sampler_walk->m_index;
size_t anim_sampler_index1 = anim_sampler_run->m_index;
size_t blend_index = blend2_instance->m_index;
REQUIRE(graph.m_node_input_connections[blend_index].size() == 2);
CHECK(
graph.m_node_input_connections[blend_index][0].m_source_node
== anim_sampler_walk);
CHECK(
graph.m_node_input_connections[blend_index][1].m_source_node
== anim_sampler_run);
REQUIRE(graph.m_node_output_connections[anim_sampler_index0].size() == 1);
CHECK(
graph.m_node_output_connections[anim_sampler_index0][0].m_target_node
== blend2_instance);
REQUIRE(graph.m_node_output_connections[anim_sampler_index1].size() == 1);
CHECK(
graph.m_node_output_connections[anim_sampler_index1][0].m_target_node
== blend2_instance);
// Emulate evaluation
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 5);
graph.prepareNodeEval(walk_node_index);
graph.finishNodeEval(walk_node_index);
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 4);
graph.prepareNodeEval(run_node_index);
graph.finishNodeEval(run_node_index);
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 3);
graph.prepareNodeEval(blend_node_index);
CHECK(blend2_instance->i_input0 == anim_sampler_walk->o_output);
CHECK(blend2_instance->i_input1 == anim_sampler_run->o_output);
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 2);
graph.finishNodeEval(blend_node_index);
CHECK(anim_sampler_walk->o_output == nullptr);
CHECK(anim_sampler_run->o_output == nullptr);
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 4);
graph.prepareNodeEval(0);
const Socket* graph_output_socket = graph.getOutputSocket("GraphOutput");
CHECK(blend2_instance->o_output == (*graph_output_socket->m_value.ptr_ptr));
AnimData* graph_output =
static_cast<AnimData*>(*graph_output_socket->m_value.ptr_ptr);
graph.finishNodeEval(0);
CHECK(blend2_instance->o_output == nullptr);
CHECK(graph_output == (*graph_output_socket->m_value.ptr_ptr));
CHECK(graph.m_anim_data_work_buffer.m_available_data.size() == 5);
}
TEST_CASE("InputAttributeConversion", "[AnimGraphResource]") {
int node_id = 3321;
int input_index = 221;
int output_index = 125;
int parsed_node_id;
int parsed_input_index;
int parsed_output_index;
int attribute_id = GenerateInputAttributeId(node_id, input_index);
SplitInputAttributeId(attribute_id, &parsed_node_id, &parsed_input_index);
CHECK(node_id == parsed_node_id);
CHECK(input_index == parsed_input_index);
attribute_id = GenerateOutputAttributeId(node_id, output_index);
SplitOutputAttributeId(attribute_id, &parsed_node_id, &parsed_output_index);
CHECK(node_id == parsed_node_id);
CHECK(output_index == parsed_output_index);
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}
TEST_CASE("ResourceSaveLoadMathGraphInputs", "[AnimGraphResource]") {
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AnimGraphResource graph_resource_origin;
graph_resource_origin.clear();
graph_resource_origin.m_name = "TestInputOutputGraph";
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size_t float_to_vec3_node_index = graph_resource_origin.addNode(
AnimNodeResourceFactory("MathFloatToVec3Node"));
AnimNodeResource& graph_output_node =
graph_resource_origin.getGraphOutputNode();
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graph_output_node.m_socket_accessor->RegisterInput<float>(
"GraphFloatOutput",
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nullptr);
graph_output_node.m_socket_accessor->RegisterInput<Vec3>(
"GraphVec3Output",
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nullptr);
AnimNodeResource& graph_input_node =
graph_resource_origin.getGraphInputNode();
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graph_input_node.m_socket_accessor->RegisterOutput<float>(
"GraphFloatInput",
nullptr);
// Prepare graph inputs and outputs
AnimNodeResource& float_to_vec3_node =
graph_resource_origin.m_nodes[float_to_vec3_node_index];
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
graph_output_node,
"GraphFloatOutput"));
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
float_to_vec3_node,
"Input0"));
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
float_to_vec3_node,
"Input1"));
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
float_to_vec3_node,
"Input2"));
REQUIRE(graph_resource_origin.connectSockets(
float_to_vec3_node,
"Output",
graph_output_node,
"GraphVec3Output"));
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WHEN("Saving and loading graph resource") {
const char* filename = "ResourceSaveLoadGraphInputs.json";
graph_resource_origin.saveToFile(filename);
AnimGraphResource graph_resource_loaded;
graph_resource_loaded.loadFromFile(filename);
const AnimNodeResource& graph_loaded_output_node =
graph_resource_loaded.m_nodes[0];
const AnimNodeResource& graph_loaded_input_node =
graph_resource_loaded.m_nodes[1];
THEN("Graph inputs and outputs must be in loaded resource as well.") {
REQUIRE(
graph_output_node.m_socket_accessor->m_inputs.size()
== graph_loaded_output_node.m_socket_accessor->m_inputs.size());
REQUIRE(
graph_input_node.m_socket_accessor->m_outputs.size()
== graph_loaded_input_node.m_socket_accessor->m_outputs.size());
REQUIRE(
graph_loaded_input_node.m_socket_accessor->FindOutputSocket(
"GraphFloatInput")
!= nullptr);
REQUIRE(
graph_loaded_output_node.m_socket_accessor->FindInputSocket(
"GraphFloatOutput")
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!= nullptr);
REQUIRE(
graph_loaded_output_node.m_socket_accessor->FindInputSocket(
"GraphVec3Output")
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!= nullptr);
WHEN("Instantiating an AnimGraph") {
AnimGraph anim_graph = graph_resource_loaded.createInstance();
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REQUIRE(anim_graph.getInputSocket("GraphFloatInput") != nullptr);
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REQUIRE(
anim_graph.getInputPtr("GraphFloatInput")
== anim_graph.m_input_buffer);
float* graph_float_input = nullptr;
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graph_float_input =
static_cast<float*>(anim_graph.getInputPtr("GraphFloatInput"));
*graph_float_input = 123.456f;
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AND_WHEN("Evaluating Graph") {
anim_graph.updateTime(0.f);
anim_graph.evaluate();
Socket* float_output_socket =
anim_graph.getOutputSocket("GraphFloatOutput");
Socket* vec3_output_socket =
anim_graph.getOutputSocket("GraphVec3Output");
Vec3& vec3_output =
*static_cast<Vec3*>(vec3_output_socket->m_value.ptr);
THEN("output vector components equal the graph input vaulues") {
CHECK(vec3_output[0] == *graph_float_input);
CHECK(vec3_output[1] == *graph_float_input);
CHECK(vec3_output[2] == *graph_float_input);
}
}
}
}
}
}
TEST_CASE("SimpleMathEvaluations", "[AnimGraphResource]") {
AnimGraphResource graph_resource_origin;
graph_resource_origin.clear();
graph_resource_origin.m_name = "TestInputOutputGraph";
size_t math_add0_node_index =
graph_resource_origin.addNode(AnimNodeResourceFactory("MathAddNode"));
size_t math_add1_node_index =
graph_resource_origin.addNode(AnimNodeResourceFactory("MathAddNode"));
AnimNodeResource& graph_output_node =
graph_resource_origin.getGraphOutputNode();
graph_output_node.m_socket_accessor->RegisterInput<float>(
"GraphFloat0Output",
nullptr);
graph_output_node.m_socket_accessor->RegisterInput<float>(
"GraphFloat1Output",
nullptr);
graph_output_node.m_socket_accessor->RegisterInput<float>(
"GraphFloat2Output",
nullptr);
AnimNodeResource& graph_input_node =
graph_resource_origin.getGraphInputNode();
graph_input_node.m_socket_accessor->RegisterOutput<float>(
"GraphFloatInput",
nullptr);
// Prepare graph inputs and outputs
AnimNodeResource& math_add0_node =
graph_resource_origin.m_nodes[math_add0_node_index];
AnimNodeResource& math_add1_node =
graph_resource_origin.m_nodes[math_add1_node_index];
// direct output
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
graph_output_node,
"GraphFloat0Output"));
// add0 node
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
math_add0_node,
"Input0"));
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REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
math_add0_node,
"Input1"));
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REQUIRE(graph_resource_origin.connectSockets(
math_add0_node,
"Output",
graph_output_node,
"GraphFloat1Output"));
// add1 node
REQUIRE(graph_resource_origin.connectSockets(
math_add0_node,
"Output",
math_add1_node,
"Input0"));
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphFloatInput",
math_add1_node,
"Input1"));
REQUIRE(graph_resource_origin.connectSockets(
math_add1_node,
"Output",
graph_output_node,
"GraphFloat2Output"));
WHEN("Saving and loading graph resource") {
const char* filename = "ResourceSaveLoadGraphInputs.json";
graph_resource_origin.saveToFile(filename);
AnimGraphResource graph_resource_loaded;
graph_resource_loaded.loadFromFile(filename);
const AnimNodeResource& graph_loaded_output_node =
graph_resource_loaded.m_nodes[0];
const AnimNodeResource& graph_loaded_input_node =
graph_resource_loaded.m_nodes[1];
WHEN("Instantiating an AnimGraph") {
AnimGraph anim_graph = graph_resource_loaded.createInstance();
REQUIRE(anim_graph.getInputSocket("GraphFloatInput") != nullptr);
REQUIRE(
anim_graph.getInputPtr("GraphFloatInput")
== anim_graph.m_input_buffer);
float* graph_float_input = nullptr;
graph_float_input =
static_cast<float*>(anim_graph.getInputPtr("GraphFloatInput"));
*graph_float_input = 123.456f;
AND_WHEN("Evaluating Graph") {
anim_graph.updateTime(0.f);
anim_graph.evaluate();
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Socket* float0_output_socket =
anim_graph.getOutputSocket("GraphFloat0Output");
Socket* float1_output_socket =
anim_graph.getOutputSocket("GraphFloat1Output");
Socket* float2_output_socket =
anim_graph.getOutputSocket("GraphFloat2Output");
REQUIRE(float0_output_socket != nullptr);
REQUIRE(float1_output_socket != nullptr);
REQUIRE(float2_output_socket != nullptr);
float& float0_output = *static_cast<float*>(float0_output_socket->m_value.ptr);
float& float1_output = *static_cast<float*>(float1_output_socket->m_value.ptr);
float& float2_output = *static_cast<float*>(float2_output_socket->m_value.ptr);
THEN("output vector components equal the graph input vaulues") {
CHECK(float0_output == Approx(*graph_float_input));
CHECK(float1_output == Approx(*graph_float_input * 2.));
CHECK(float2_output == Approx(*graph_float_input * 3.));
}
}
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}
}
}
/*
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WHEN("Connecting input to output and instantiating the graph") {
AnimNodeResource& graph_output_node = graph_resource_origin.m_nodes[0];
AnimNodeResource& graph_input_node = graph_resource_origin.m_nodes[1];
REQUIRE(graph_resource_origin.connectSockets(
graph_input_node,
"GraphAnimInput",
graph_output_node,
"GraphOutput"));
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AnimGraph anim_graph = graph_resource_origin.createInstance();
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void* graph_anim_input_ptr = anim_graph.getInput("GraphAnimInput");
void* graph_output_ptr = anim_graph.getOutput("GraphOutput");
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REQUIRE(graph_anim_input_ptr == graph_output_ptr);
REQUIRE(graph_output_ptr == anim_graph.m_output_buffer);
REQUIRE(
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anim_graph.getInput("GraphAnimInput")
== anim_graph.getOutput("GraphOutput"));
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}
}
TEST_CASE("GraphInputOutputConnectivity", "[AnimGraphResource]") {
AnimGraphResource graph_resource;
graph_resource.clear();
graph_resource.m_name = "TestGraphInputOutputConnectivity";
AnimNodeResource& graph_output_node = graph_resource.m_nodes[0];
graph_output_node.m_socket_accessor->RegisterInput<float>(
"GraphFloatOutput",
nullptr);
graph_output_node.m_socket_accessor->RegisterInput<AnimData>(
"GraphAnimOutput",
nullptr);
AnimNodeResource& graph_input_node = graph_resource.m_nodes[1];
graph_input_node.m_socket_accessor->RegisterOutput<float>(
"GraphFloatInput",
nullptr);
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graph_input_node.m_socket_accessor->RegisterOutput<float>(
"SpeedScaleInput",
nullptr);
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graph_input_node.m_socket_accessor->RegisterOutput<AnimData>(
"GraphAnimInput0",
nullptr);
graph_input_node.m_socket_accessor->RegisterOutput<AnimData>(
"GraphAnimInput1",
nullptr);
WHEN("Connecting float input with float output") {
REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphFloatInput",
graph_resource.getGraphOutputNode(),
"GraphFloatOutput"));
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AnimGraph anim_graph = graph_resource.createInstance();
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THEN("Writing to the input pointer changes the value of the output.") {
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float* float_input_ptr = (float*)anim_graph.getInput("GraphFloatInput");
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REQUIRE(float_input_ptr != nullptr);
*float_input_ptr = 23.123f;
float* float_output_ptr =
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(float*)anim_graph.getOutput("GraphFloatOutput");
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REQUIRE(float_output_ptr != nullptr);
CHECK(*float_output_ptr == Approx(23.123f));
}
}
WHEN("Connecting adding a Blend2 node") {
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size_t blend2_node_index =
graph_resource.addNode(AnimNodeResourceFactory("Blend2"));
AnimNodeResource& blend2_node_resource =
graph_resource.m_nodes[blend2_node_index];
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REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphFloatInput",
blend2_node_resource,
"Weight"));
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THEN("Connected float input points to the blend weight.") {
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AnimGraph anim_graph = graph_resource.createInstance();
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Blend2Node* blend2_node =
dynamic_cast<Blend2Node*>(anim_graph.m_nodes[blend2_node_index]);
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REQUIRE(
*anim_graph.m_socket_accessor->m_outputs[0].m_value.ptr_ptr
== blend2_node->i_blend_weight);
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float* float_input_ptr = (float*)anim_graph.getInput("GraphFloatInput");
REQUIRE(float_input_ptr == blend2_node->i_blend_weight);
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}
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WHEN(
"Connecting AnimData inputs to blend2 node and blend2 output to graph "
"output.") {
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REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphAnimInput0",
blend2_node_resource,
"Input0"));
REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphAnimInput1",
blend2_node_resource,
"Input1"));
REQUIRE(graph_resource.connectSockets(
blend2_node_resource,
"Output",
graph_resource.getGraphOutputNode(),
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"GraphAnimOutput"));
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THEN(
"AnimData from output gets blended and result is written to "
"Output.") {
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AnimGraph anim_graph = graph_resource.createInstance();
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Blend2Node* blend2_node =
dynamic_cast<Blend2Node*>(anim_graph.m_nodes[blend2_node_index]);
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AnimData* graph_input0 =
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(AnimData*)anim_graph.getInput("GraphAnimInput0");
REQUIRE(graph_input0 == blend2_node->i_input0);
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REQUIRE(
anim_graph.m_nodes[1]
== anim_graph.getAnimNodeForInput(blend2_node_index, "Input0"));
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AnimData* graph_input1 =
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(AnimData*)anim_graph.getInput("GraphAnimInput1");
REQUIRE(graph_input1 == blend2_node->i_input1);
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REQUIRE(
anim_graph.m_nodes[1]
== anim_graph.getAnimNodeForInput(blend2_node_index, "Input1"));
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AnimData* graph_output =
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(AnimData*)anim_graph.getOutput("GraphAnimOutput");
REQUIRE(graph_output == blend2_node->o_output);
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REQUIRE(
anim_graph.m_nodes[blend2_node_index]
== anim_graph.getAnimNodeForInput(0, "GraphAnimOutput"));
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}
}
}
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WHEN("Adding AnimSampler Nodes") {
size_t blend2_node_index =
graph_resource.addNode(AnimNodeResourceFactory("Blend2"));
size_t sampler_node_index =
graph_resource.addNode(AnimNodeResourceFactory("AnimSampler"));
size_t speed_scale_node_index =
graph_resource.addNode(AnimNodeResourceFactory("SpeedScale"));
AnimNodeResource& blend2_node_resource =
graph_resource.m_nodes[blend2_node_index];
AnimNodeResource& sampler_node_resource =
graph_resource.m_nodes[sampler_node_index];
AnimNodeResource& speed_scale_node_resource =
graph_resource.m_nodes[speed_scale_node_index];
REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphFloatInput",
blend2_node_resource,
"Weight"));
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REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"SpeedScaleInput",
speed_scale_node_resource,
"SpeedScale"));
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REQUIRE(graph_resource.connectSockets(
graph_resource.getGraphInputNode(),
"GraphAnimInput0",
blend2_node_resource,
"Input0"));
REQUIRE(graph_resource.connectSockets(
sampler_node_resource,
"Output",
speed_scale_node_resource,
"Input"));
REQUIRE(graph_resource.connectSockets(
speed_scale_node_resource,
"Output",
blend2_node_resource,
"Input1"));
REQUIRE(graph_resource.connectSockets(
blend2_node_resource,
"Output",
graph_resource.getGraphOutputNode(),
"GraphAnimOutput"));
THEN("Data flow and node ordering must be correct.") {
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AnimGraph anim_graph = graph_resource.createInstance();
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Blend2Node* blend2_node =
dynamic_cast<Blend2Node*>(anim_graph.m_nodes[blend2_node_index]);
SpeedScaleNode* speed_scale_node = dynamic_cast<SpeedScaleNode*>(
anim_graph.m_nodes[speed_scale_node_index]);
AnimSamplerNode* sampler_node = dynamic_cast<AnimSamplerNode*>(
anim_graph.m_nodes[sampler_node_index]);
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//
// check connectivity
//
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AnimData* graph_input0 =
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(AnimData*)anim_graph.getInput("GraphAnimInput0");
REQUIRE(graph_input0 == blend2_node->i_input0);
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REQUIRE(
anim_graph.m_nodes[1]
== anim_graph.getAnimNodeForInput(blend2_node_index, "Input0"));
AnimData* graph_input1 =
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(AnimData*)anim_graph.getInput("GraphAnimInput1");
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REQUIRE(graph_input1 == nullptr);
REQUIRE(sampler_node->o_output == speed_scale_node->i_input);
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REQUIRE(
sampler_node
== anim_graph.getAnimNodeForInput(speed_scale_node_index, "Input"));
REQUIRE(speed_scale_node->i_output == blend2_node->i_input1);
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REQUIRE(
speed_scale_node
== anim_graph.getAnimNodeForInput(blend2_node_index, "Input1"));
AnimData* graph_output =
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(AnimData*)anim_graph.getOutput("GraphAnimOutput");
REQUIRE(graph_output == blend2_node->o_output);
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REQUIRE(
anim_graph.m_nodes[blend2_node_index]
== anim_graph.getAnimNodeForInput(0, "GraphAnimOutput"));
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//
// check ordering
//
REQUIRE(
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anim_graph.getNodeEvalOrderIndex(blend2_node)
< anim_graph.getNodeEvalOrderIndex(sampler_node));
REQUIRE(
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anim_graph.getNodeEvalOrderIndex(blend2_node)
< anim_graph.getNodeEvalOrderIndex(speed_scale_node));
REQUIRE(
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anim_graph.getNodeEvalOrderIndex(speed_scale_node)
< anim_graph.getNodeEvalOrderIndex(sampler_node));
}
WHEN("Instantiating graph") {
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AnimGraph anim_graph = graph_resource.createInstance();
float* blend_weight_input =
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reinterpret_cast<float*>(anim_graph.getInput("GraphFloatInput"));
Blend2Node* blend2_node =
dynamic_cast<Blend2Node*>(anim_graph.m_nodes[blend2_node_index]);
SpeedScaleNode* speed_scale_node = dynamic_cast<SpeedScaleNode*>(
anim_graph.m_nodes[speed_scale_node_index]);
AnimSamplerNode* sampler_node = dynamic_cast<AnimSamplerNode*>(
anim_graph.m_nodes[sampler_node_index]);
WHEN("Setting weight to 0. and marking nodes active.") {
*blend_weight_input = 0.;
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anim_graph.markActiveNodes();
THEN("Speed scale and sampler node are inactive") {
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REQUIRE(anim_graph.checkIsNodeActive(speed_scale_node) == false);
REQUIRE(anim_graph.checkIsNodeActive(sampler_node) == false);
}
}
WHEN("Setting weight to 0. and marking nodes active") {
*blend_weight_input = 0.1;
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anim_graph.markActiveNodes();
THEN("Speed scale and sampler nodes are active") {
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REQUIRE(anim_graph.checkIsNodeActive(speed_scale_node) == true);
REQUIRE(anim_graph.checkIsNodeActive(sampler_node) == true);
}
}
WHEN("Setting weight to 1. and marking nodes active") {
*blend_weight_input = 1.0;
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anim_graph.markActiveNodes();
THEN("Speed scale and sampler nodes are active") {
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REQUIRE(anim_graph.checkIsNodeActive(speed_scale_node) == true);
REQUIRE(anim_graph.checkIsNodeActive(sampler_node) == true);
}
}
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WHEN("Updating time with dt = 0.3f and speed scale = 1.0f") {
float* speed_scale_input =
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reinterpret_cast<float*>(anim_graph.getInput("SpeedScaleInput"));
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*blend_weight_input = 0.1;
*speed_scale_input = 1.0f;
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anim_graph.markActiveNodes();
anim_graph.updateTime(0.3f);
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THEN ("Anim sampler node time now must be 0.3f") {
REQUIRE(sampler_node->m_time_now == Approx(0.3f));
}
}
WHEN("Updating time with dt = 0.3f and speed scale = 1.3f") {
float* speed_scale_input =
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reinterpret_cast<float*>(anim_graph.getInput("SpeedScaleInput"));
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*blend_weight_input = 0.1;
*speed_scale_input = 1.3f;
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anim_graph.markActiveNodes();
anim_graph.updateTime(0.3f);
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THEN ("Anim sampler node time now must be 0.39f") {
REQUIRE(sampler_node->m_time_now == Approx(0.39f));
}
}
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}
}
}
*/