mirror of
https://github.com/wiidev/usbloadergx.git
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261 lines
7.5 KiB
C++
261 lines
7.5 KiB
C++
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/*
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Copyright (c) 2010 - Wii Banner Player Project
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Copyright (c) 2012 - Dimok
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any damages
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arising from the use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it
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freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must not
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claim that you wrote the original software. If you use this software
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in a product, an acknowledgment in the product documentation would be
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appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and must not be
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misrepresented as being the original software.
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3. This notice may not be removed or altered from any source
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distribution.
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*/
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#include <math.h>
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#include "Animator.h"
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#include "Layout.h"
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// load keyframes from a brlan file
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u32 Animator::LoadAnimators(const RLAN_Header *header, Layout& layout, u8 key_set)
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{
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u32 frame_count = 0;
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if (!header || header->magic != MAGIC_ANIMATION || header->endian != 0xFEFF || header->version != 0x0008)
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return 0; // bad header
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// first section
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const u8 *position = ((const u8 *) header) + header->offset;
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for(u32 i = 0; i < header->section_count; ++i)
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{
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section_t *section = (section_t *) position;
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position += section->size;
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if (section->magic == MAGIC_PANE_ANIMATION_INFO)
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{
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const PAI1_Header *pai = (const PAI1_Header *) section;
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u16 animator_count = pai->animator_count;
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frame_count += pai->frame_count;
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// read animation file names
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const u32 *nameOffsets = (const u32 *)(pai + 1);
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for(u32 i = 0; i < pai->file_count; i++)
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{
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const char* name = (((const char *) nameOffsets) + nameOffsets[i]);
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layout.AddPalette(name, key_set);
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}
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const u32 *offsets = (const u32 *) (((const u8 *)section) + pai->entry_offset);
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// read each animator
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for(u32 n = 0; n < animator_count; n++)
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{
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const AnimatorHeader *animHdr = (const AnimatorHeader *) (((const u8 *)section) + offsets[n]);
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std::string anim_name(animHdr->name, 0, 20);
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Animator* animator = animHdr->is_material ?
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(Animator*) layout.FindMaterial(anim_name) :
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(Animator*) layout.FindPane(anim_name);
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if (animator)
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animator->LoadKeyFrames((const u8 *) animHdr, animHdr->tag_count, sizeof(AnimatorHeader), key_set);
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}
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}
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else
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{
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gprintf("Unknown: %c%c%c%c\n", position[0], position[1], position[2], position[3]);
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}
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}
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return frame_count;
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}
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void Animator::LoadKeyFrames(const u8 *file, u8 tag_count, u32 offset, u8 key_set)
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{
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const u32 *tag_offsets = (const u32 *) (file + offset);
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for(u32 tag = 0; tag < tag_count; tag++)
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{
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const Anim_Header *animHdr = (const Anim_Header *) (file + tag_offsets[tag]);
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u32 animation_type = animHdr->animation_type;
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u8 frame_count = animHdr->frame_count;
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const u32 *frame_offsets = (const u32 *) (animHdr + 1);
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for(u32 frame = 0; frame < frame_count; frame++)
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{
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const KeyFrame_Header *keyFrame = (const KeyFrame_Header *)(((const u8 *) animHdr) + frame_offsets[frame]);
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const KeyType frame_type(static_cast<AnimationType>(animation_type), keyFrame->index, keyFrame->target);
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switch (keyFrame->data_type)
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{
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// step key frame
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case 0x01:
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keys[key_set].step_keys[frame_type].Load((const u8 *) (keyFrame+1), keyFrame->key_count);
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break;
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// hermite key frame
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case 0x02:
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keys[key_set].hermite_keys[frame_type].Load((const u8 *) (keyFrame+1), keyFrame->key_count);
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break;
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default:
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break;
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}
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}
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}
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}
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void Animator::SetFrame(FrameNumber frame_number, u8 key_set)
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{
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std::map<KeyType, HermiteKeyHandler>::iterator itr;
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for(itr = keys[key_set].hermite_keys.begin(); itr != keys[key_set].hermite_keys.end(); itr++)
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{
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const KeyType& frame_type = itr->first;
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const float frame_value = itr->second.GetFrame(frame_number);
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ProcessHermiteKey(frame_type, frame_value);
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}
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std::map<KeyType, StepKeyHandler>::iterator itr2;
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for(itr2 = keys[key_set].step_keys.begin(); itr2 != keys[key_set].step_keys.end(); itr2++)
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{
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const KeyType& frame_type = itr2->first;
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StepKeyHandler::KeyData const frame_data = itr2->second.GetFrame(frame_number);
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ProcessStepKey(frame_type, frame_data);
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}
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}
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void StepKeyHandler::Load(const u8 *file, u16 count)
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{
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while (count--)
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{
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FrameNumber frame;
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frame = *((FrameNumber *) file);
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file += 4;
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KeyData& data = keys[frame];
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data.data1 = *file;
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file++;
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data.data2 = *file;
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file++;
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file += 2;
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}
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}
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void HermiteKeyHandler::Load(const u8 *file, u16 count)
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{
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while (count--)
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{
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std::pair<FrameNumber, KeyData> pair;
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// read the frame number, value and slope
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pair.first = *((FrameNumber *) file);
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file += 4;
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pair.second.value = *((float *) file);
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file += 4;
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pair.second.slope = *((float *) file);
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file += 4;
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keys.insert(pair);
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//std::cout << "\t\t\t" "frame: " << frame << ' ' << keys[frame] << '\n';
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}
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}
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StepKeyHandler::KeyData StepKeyHandler::GetFrame(FrameNumber frame_number) const
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{
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// assuming not empty, a safe assumption currently
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// find the current frame, or the one after it
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std::map<FrameNumber, KeyData>::const_iterator frame_it = keys.lower_bound(frame_number);
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// current frame is higher than any keyframe, use the last keyframe
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if (keys.end() == frame_it)
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--frame_it;
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// if this is after the current frame and not the first keyframe, use the previous one
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if (frame_number < frame_it->first && keys.begin() != frame_it)
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--frame_it;
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return frame_it->second;
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}
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float HermiteKeyHandler::GetFrame(FrameNumber frame_number) const
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{
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// assuming not empty, a safe assumption currently
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// find the current keyframe, or the one after it
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std::multimap<FrameNumber, KeyData>::const_iterator next = keys.lower_bound(frame_number);
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// current frame is higher than any keyframe, use the last keyframe
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if (keys.end() == next)
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--next;
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std::multimap<FrameNumber, KeyData>::const_iterator prev = next;
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// if this is after the current frame and not the first keyframe, use the previous one
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if (frame_number < prev->first && keys.begin() != prev)
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--prev;
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const float nf = next->first - prev->first;
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if (fabs(nf) < 0.01)
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{
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// same frame numbers, just return the first's value
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return prev->second.value;
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}
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else
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{
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// different frames, blend them together
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// this is a "Cubic Hermite spline" apparently
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frame_number = (frame_number < prev->first) ? prev->first :
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((frame_number > next->first) ? next->first : frame_number);
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const float t = (frame_number - prev->first) / nf;
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// old curve-less code
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//return prev->second.value + (next->second.value - prev->second.value) * t;
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// curvy code from marcan, :p
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return
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prev->second.slope * nf * (t + powf(t, 3) - 2 * powf(t, 2)) +
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next->second.slope * nf * (powf(t, 3) - powf(t, 2)) +
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prev->second.value * (1 + (2 * powf(t, 3) - 3 * powf(t, 2))) +
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next->second.value * (-2 * powf(t, 3) + 3 * powf(t, 2));
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}
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}
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void Animator::ProcessHermiteKey(const KeyType& type, float value)
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{
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// std::cout << "unhandled key (" << GetName() << "): type: " << FourCC(type.type)
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// << " index: " << (int)type.index
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// << " target: " << (int)type.target
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// << " value: " << value
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// << '\n';
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gprintf("Animator::ProcessHermiteKey\n");
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}
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void Animator::ProcessStepKey(const KeyType& type, StepKeyHandler::KeyData data)
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{
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// std::cout << "unhandled key (" << GetName() << "): type: " << FourCC(type.type)
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// << " index: " << (int)type.index
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// << " target: " << (int)type.target
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// << " data:" << (int)data.data1 << " " << (int)data.data2
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// << '\n';
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gprintf("Animator::ProcessStepKey\n");
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}
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