Added additional sync track tests.
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5e6e81b60b
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d006b43d04
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@ -25,53 +25,90 @@ constexpr int cSyncTrackMaxIntervals = 8;
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struct SyncTrack {
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float m_duration;
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int m_num_intervals;
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float m_sync_markers[cSyncTrackMaxIntervals];
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float m_interval_start[cSyncTrackMaxIntervals];
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float m_interval_end[cSyncTrackMaxIntervals];
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float m_interval_durations[cSyncTrackMaxIntervals];
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float CalcSyncFromAbsTime (float abs_time) {
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float sync_time = fmodf (abs_time, m_duration) / m_duration;
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void CalcIntervals() {
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int i;
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if (m_num_intervals == 0) {
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m_num_intervals = 1;
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m_interval_start[0] = 0.f;
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m_interval_end[0] = 1.f;
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} else {
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for (i = 0; i < m_num_intervals; i++) {
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int end_index = i < m_num_intervals - 1 ? i + 1 : 0;
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m_interval_start[i] = m_sync_markers[i];
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m_interval_end[i] = m_sync_markers[end_index];
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if (m_interval_end[i] > m_interval_start[i]) {
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m_interval_durations[i] = m_interval_end[i] - m_interval_start[i];
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} else {
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m_interval_durations[i] =
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m_interval_end[i] + (1. - m_interval_start[i]);
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}
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}
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}
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}
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float CalcSyncFromAbsTime(float abs_time) {
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float sync_time = fmodf(abs_time, m_duration) / m_duration;
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int interval_index = 0;
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while (sync_time >= m_interval_durations[interval_index]) {
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sync_time -= m_interval_durations[interval_index];
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interval_index ++;
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interval_index++;
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}
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return float(interval_index) + sync_time / m_interval_durations[interval_index];
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return float(interval_index)
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+ sync_time / m_interval_durations[interval_index];
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}
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float CalcRatioFromSyncTime (float sync_time) {
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float CalcRatioFromSyncTime(float sync_time) {
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float interval_ratio = fmodf(sync_time, 1.0f);
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int interval = int(sync_time - interval_ratio);
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float result = 0.f;
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int i = 0;
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while (i < interval) {
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result += m_interval_durations[i];
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i++;
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return fmodf(
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m_interval_start[interval]
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+ m_interval_durations[interval] * interval_ratio,
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1.0f);
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}
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result += m_interval_durations[i] * interval_ratio;
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static SyncTrack
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Blend(float weight, const SyncTrack& track_A, const SyncTrack& track_B) {
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assert(track_A.m_num_intervals == track_B.m_num_intervals);
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return result;
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}
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static SyncTrack Blend(float weight, const SyncTrack& track_A, const SyncTrack& track_B) {
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SyncTrack result;
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assert (track_A.m_num_intervals == track_B.m_num_intervals);
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result.m_num_intervals = track_A.m_num_intervals;
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result.m_duration = (1.0f - weight) * track_A.m_duration + weight * track_B.m_duration;
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result.m_duration =
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(1.0f - weight) * track_A.m_duration + weight * track_B.m_duration;
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for (int i = 0; i < result.m_num_intervals; i++) {
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result.m_interval_durations[i] = (1.0f - weight) * track_A.m_interval_durations[i] + weight * track_B.m_interval_durations[i];
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result.m_interval_durations[i] =
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(1.0f - weight) * track_A.m_interval_durations[i]
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+ weight * track_B.m_interval_durations[i];
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result.m_interval_start[i] =
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(1.0f - weight) * track_A.m_interval_start[i]
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+ weight * track_B.m_interval_start[i];
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result.m_interval_end[i] =
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(1.0f - weight) * track_A.m_interval_end[i]
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+ weight * track_B.m_interval_end[i];
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result.m_sync_markers[i] =
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(1.0f - weight) * track_A.m_sync_markers[i]
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+ weight * track_B.m_sync_markers[i];
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}
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return result;
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}
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};
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struct SkinnedMesh {
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virtual ~SkinnedMesh();
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bool LoadSkeleton(const char* filename);
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@ -79,8 +116,12 @@ struct SkinnedMesh {
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//bool LoadMesh (const char* filename);
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void SetCurrentAnimation(int index);
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const ozz::animation::Animation* GetCurrentAnimation() {return m_current_animation; };
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float GetCurrentAnimationDuration() {return m_current_animation->duration(); };
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const ozz::animation::Animation* GetCurrentAnimation() {
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return m_current_animation;
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};
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float GetCurrentAnimationDuration() {
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return m_current_animation->duration();
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};
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void EvalAnimation(float in_time);
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void DrawSkeleton();
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@ -2,79 +2,154 @@
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// Created by martin on 16.11.21.
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//
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#include "SkinnedMesh.h"
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#include "catch.hpp"
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#include "SkinnedMesh.h"
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TEST_CASE("SyncTrackBlendSimple", "[SyncTrackBlend]") {
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TEST_CASE("Basic", "[SyncTrack]") {
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SyncTrack track_A;
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track_A.m_num_intervals = 2;
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track_A.m_duration = 2.0;
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track_A.m_interval_start[0] = 0.f;
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track_A.m_interval_end[0] = 0.7f;
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track_A.m_interval_durations[0] = 0.7;
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track_A.m_interval_start[1] = 0.7f;
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track_A.m_interval_end[1] = 1.0f;
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track_A.m_interval_durations[1] = 0.3;
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SyncTrack track_B;
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track_B.m_num_intervals = 2;
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track_B.m_duration = 1.5;
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track_B.m_interval_start[0] = 0.0f;
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track_B.m_interval_end[0] = 0.6f;
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track_B.m_interval_durations[0] = 0.6;
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track_B.m_interval_start[1] = 0.6f;
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track_B.m_interval_end[1] = 1.0f;
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track_B.m_interval_durations[1] = 0.4;
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WHEN ("Calculating sync time of track_B at 0.5 duration") {
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float sync_time_at_0_75 = track_B.CalcSyncFromAbsTime(0.5 * track_B.m_duration);
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WHEN("Calculating sync time of track_B at 0.5 duration") {
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float sync_time_at_0_75 =
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track_B.CalcSyncFromAbsTime(0.5 * track_B.m_duration);
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REQUIRE(sync_time_at_0_75 == Catch::Detail::Approx(0.83333));
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}
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WHEN ("Calculating sync time of track_B at 0.6 duration") {
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float sync_time_at_0_6 = track_B.CalcSyncFromAbsTime(0.6 * track_B.m_duration);
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WHEN("Calculating sync time of track_B at 0.6 duration") {
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float sync_time_at_0_6 =
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track_B.CalcSyncFromAbsTime(0.6 * track_B.m_duration);
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REQUIRE(sync_time_at_0_6 == Catch::Detail::Approx(1.0));
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}
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WHEN ("Calculating sync time of track_B at 0.7 duration") {
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float sync_time_at_0_7 = track_B.CalcSyncFromAbsTime(0.7 * track_B.m_duration);
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WHEN("Calculating sync time of track_B at 0.7 duration") {
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float sync_time_at_0_7 =
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track_B.CalcSyncFromAbsTime(0.7 * track_B.m_duration);
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REQUIRE(sync_time_at_0_7 == Catch::Detail::Approx(1.25));
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}
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WHEN ("Calculating sync time of track_B at 0.0 duration") {
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float sync_time_at_1_0 = track_B.CalcSyncFromAbsTime(0.0 * track_B.m_duration);
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WHEN("Calculating sync time of track_B at 0.0 duration") {
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float sync_time_at_1_0 =
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track_B.CalcSyncFromAbsTime(0.0 * track_B.m_duration);
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REQUIRE(sync_time_at_1_0 == Catch::Detail::Approx(0.0));
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}
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WHEN ("Calculating sync time of track_B at 1.0 duration") {
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float sync_time_at_1_0 = track_B.CalcSyncFromAbsTime(0.9999 * track_B.m_duration);
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WHEN("Calculating sync time of track_B at 1.0 duration") {
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float sync_time_at_1_0 =
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track_B.CalcSyncFromAbsTime(0.9999 * track_B.m_duration);
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REQUIRE(sync_time_at_1_0 == Catch::Detail::Approx(2.0).epsilon(0.001f));
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}
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WHEN ("Calculating ratio from sync time on track_A at 0.83333") {
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WHEN("Calculating ratio from sync time on track_A at 0.83333") {
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float ratio = track_A.CalcRatioFromSyncTime(0.83333333);
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REQUIRE (ratio == Catch::Detail::Approx(0.5833333));
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REQUIRE(ratio == Catch::Detail::Approx(0.5833333));
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}
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WHEN ("Calculating ratio from sync time on track_A at 0.83333") {
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WHEN("Calculating ratio from sync time on track_A at 0.83333") {
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float ratio = track_A.CalcRatioFromSyncTime(1.25);
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REQUIRE (ratio == Catch::Detail::Approx(0.775));
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REQUIRE(ratio == Catch::Detail::Approx(0.775));
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}
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WHEN("Blending two synctracks with weight 0.") {
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SyncTrack blended = SyncTrack::Blend(0.f, track_A, track_B);
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THEN ("Result must equal track_A") {
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THEN("Result must equal track_A") {
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REQUIRE(blended.m_duration == track_A.m_duration);
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REQUIRE(
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blended.m_interval_durations[0] == track_A.m_interval_durations[0]);
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REQUIRE(
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blended.m_interval_durations[1] == track_A.m_interval_durations[1]);
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REQUIRE(blended.m_sync_markers[0] == track_A.m_sync_markers[0]);
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REQUIRE(blended.m_sync_markers[1] == track_A.m_sync_markers[1]);
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REQUIRE(blended.m_interval_start[0] == track_A.m_interval_start[0]);
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REQUIRE(blended.m_interval_start[1] == track_A.m_interval_start[1]);
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REQUIRE(blended.m_interval_end[0] == track_A.m_interval_end[0]);
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REQUIRE(blended.m_interval_end[1] == track_A.m_interval_end[1]);
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}
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}
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WHEN("Blending two synctracks with weight 1.") {
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SyncTrack blended = SyncTrack::Blend(1.f, track_A, track_B);
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THEN ("Result must equal track_B") {
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THEN("Result must equal track_B") {
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REQUIRE(blended.m_duration == track_B.m_duration);
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REQUIRE(
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blended.m_interval_durations[0] == track_B.m_interval_durations[0]);
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REQUIRE(
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blended.m_interval_durations[1] == track_B.m_interval_durations[1]);
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REQUIRE(blended.m_sync_markers[0] == track_B.m_sync_markers[0]);
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REQUIRE(blended.m_sync_markers[1] == track_B.m_sync_markers[1]);
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REQUIRE(blended.m_interval_start[0] == track_B.m_interval_start[0]);
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REQUIRE(blended.m_interval_start[1] == track_B.m_interval_start[1]);
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REQUIRE(blended.m_interval_end[0] == track_B.m_interval_end[0]);
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REQUIRE(blended.m_interval_end[1] == track_B.m_interval_end[1]);
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}
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}
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}
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TEST_CASE("Sync Marker Interval Calculation", "[SyncTrack]") {
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SyncTrack track_A;
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track_A.m_num_intervals = 2;
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track_A.m_duration = 2.0;
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track_A.m_sync_markers[0] = 0.9;
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track_A.m_sync_markers[1] = 0.2;
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WHEN("Calculating intervals") {
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track_A.CalcIntervals();
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CHECK(track_A.m_interval_start[0] == 0.9f);
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CHECK(track_A.m_interval_end[0] == 0.2f);
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CHECK(track_A.m_interval_durations[0] == 0.3f);
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CHECK(track_A.m_interval_start[1] == 0.2f);
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CHECK(track_A.m_interval_end[1] == 0.9f);
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CHECK(track_A.m_interval_durations[1] == 0.7f);
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WHEN("Querying ratio at sync time at 1.001") {
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float ratio = track_A.CalcRatioFromSyncTime(1.0001f);
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CHECK(ratio == Catch::Detail::Approx(0.2).epsilon(0.001));
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}
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WHEN("Querying ratio at sync time at 1.001") {
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float ratio = track_A.CalcRatioFromSyncTime(0.0001f);
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CHECK(ratio == Catch::Detail::Approx(0.9).epsilon(0.001));
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}
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WHEN("Querying ratio at sync time at 1.9999") {
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float ratio = track_A.CalcRatioFromSyncTime(0.9999f);
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CHECK(ratio == Catch::Detail::Approx(0.2).epsilon(0.001));
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}
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}
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WHEN ("Blending with another sync track") {
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SyncTrack track_B;
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track_B.m_num_intervals = 2;
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track_B.m_duration = 1.0;
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track_B.m_sync_markers[0] = 0.9;
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track_B.m_sync_markers[1] = 0.2;
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}
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}
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