#include "ANIM.hpp" namespace Retro { namespace DNAMP1 { using ANIMOutStream = HECL::BlenderConnection::PyOutStream::ANIMOutStream; void ANIM::IANIM::sendANIMToBlender(HECL::BlenderConnection::PyOutStream& os, const CINF& cinf) const { os.format("act.hecl_fps = round(%f)\n", (1.0f / mainInterval)); auto kit = chanKeys.begin(); for (const std::pair& bone : bones) { const std::string* bName = cinf.getBoneNameFromId(bone.first); if (!bName) continue; os.format("bone_string = '%s'\n", bName->c_str()); os << "action_group = act.groups.new(bone_string)\n" "\n" "rotCurves = []\n" "rotCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].rotation_quaternion', index=0, action_group=bone_string))\n" "rotCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].rotation_quaternion', index=1, action_group=bone_string))\n" "rotCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].rotation_quaternion', index=2, action_group=bone_string))\n" "rotCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].rotation_quaternion', index=3, action_group=bone_string))\n" "\n"; if (bone.second) os << "bone_trans_head = (0.0,0.0,0.0)\n" "if arm_obj.data.bones[bone_string].parent is not None:\n" " bone_trans_head = Vector(arm_obj.data.bones[bone_string].head_local) - Vector(arm_obj.data.bones[bone_string].parent.head_local)\n" "transCurves = []\n" "transCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].location', index=0, action_group=bone_string))\n" "transCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].location', index=1, action_group=bone_string))\n" "transCurves.append(act.fcurves.new('pose.bones[\"'+bone_string+'\"].location', index=2, action_group=bone_string))\n" "\n"; os << "crv = act.fcurves.new('pose.bones[\"'+bone_string+'\"].rotation_mode', action_group=bone_string)\n" "crv.keyframe_points.add()\n" "crv.keyframe_points[-1].co = (0, 0)\n" "crv.keyframe_points[-1].interpolation = 'LINEAR'\n" "\n"; const std::vector& rotKeys = *kit++; ANIMOutStream ao = os.beginANIMCurve(); for (int c=0 ; c<4 ; ++c) { auto frameit = frames.begin(); ao.changeCurve(ANIMOutStream::CurveType::CurveRotate, c, rotKeys.size()); for (const DNAANIM::Value& val : rotKeys) ao.write(*frameit++, val.v4.vec[c]); } if (bone.second) { const std::vector& transKeys = *kit++; for (int c=0 ; c<3 ; ++c) { auto frameit = frames.begin(); ao.changeCurve(ANIMOutStream::CurveType::CurveTranslate, c, transKeys.size()); for (const DNAANIM::Value& val : transKeys) ao.write(*frameit++, val.v3.vec[c]); } } } } void ANIM::ANIM0::read(Athena::io::IStreamReader& reader) { Header head; head.read(reader); mainInterval = head.interval; frames.clear(); frames.reserve(head.keyCount); for (size_t k=0 ; k boneMap; for (size_t b=0 ; b& bone : bones) { chanKeys.emplace_back(); std::vector& keys = chanKeys.back(); for (size_t k=0 ; k& bone : bones) { ++kit; if (bone.second) { std::vector& keys = *kit++; for (size_t k=0 ; k& bone : bones) maxId = std::max(maxId, bone.first); head.boneSlotCount = maxId + 1; head.write(writer); for (size_t s=0 ; s& bone : bones) { if (s == bone.first) { writer.writeUByte(boneIdx); found = true; break; } ++boneIdx; } if (!found) writer.writeUByte(0xff); } writer.writeUint32Big(bones.size()); size_t boneIdx = 0; for (const std::pair& bone : bones) { if (bone.second) writer.writeUByte(boneIdx); else writer.writeUByte(0xff); ++boneIdx; } writer.writeUint32Big(bones.size() * head.keyCount); auto cit = chanKeys.begin(); atUint32 transKeyCount = 0; for (const std::pair& bone : bones) { const std::vector& keys = *cit++; auto kit = keys.begin(); for (size_t k=0 ; k& bone : bones) { ++cit; if (bone.second) { const std::vector& keys = *cit++; auto kit = keys.begin(); for (size_t k=0 ; k& bone : bones) maxId = std::max(maxId, bone.first); __isz = head.binarySize(__isz); __isz += maxId + 1; __isz += bones.size() + 4; __isz += 8; for (const std::pair& bone : bones) { __isz += head.keyCount * 16; if (bone.second) __isz += head.keyCount * 12; } return __isz + 4; } void ANIM::ANIM2::read(Athena::io::IStreamReader& reader) { Header head; head.read(reader); evnt = head.evnt; mainInterval = head.interval; WordBitmap keyBmp; keyBmp.read(reader, head.keyBitmapBitCount); frames.clear(); atUint32 frameAccum = 0; for (bool bit : keyBmp) { if (bit) frames.push_back(frameAccum); ++frameAccum; } reader.seek(8); bones.clear(); bones.reserve(head.boneChannelCount); channels.clear(); channels.reserve(head.boneChannelCount); atUint16 keyframeCount = 0; for (size_t b=0 ; b bsData = reader.readUBytes(bsSize); DNAANIM::BitstreamReader bsReader; chanKeys = bsReader.read(bsData.get(), keyframeCount, channels, head.rotDiv, head.translationMult); } void ANIM::ANIM2::write(Athena::io::IStreamWriter& writer) const { Header head; head.evnt = evnt; head.unk0 = 1; head.interval = mainInterval; head.unk1 = 3; head.unk2 = 0; head.unk3 = 1; WordBitmap keyBmp; size_t frameCount = 0; for (atUint32 frame : frames) { while (keyBmp.getBit(frame)) ++frame; keyBmp.setBit(frame); frameCount = frame + 1; } head.keyBitmapBitCount = frameCount; head.duration = frameCount * mainInterval; head.boneChannelCount = bones.size(); size_t keyframeCount = frames.size(); std::vector qChannels = channels; DNAANIM::BitstreamWriter bsWriter; size_t bsSize; std::unique_ptr bsData = bsWriter.write(chanKeys, keyframeCount, qChannels, head.rotDiv, head.translationMult, bsSize); /* TODO: Figure out proper scratch size computation */ head.scratchSize = keyframeCount * channels.size() * 16; head.write(writer); keyBmp.write(writer); writer.writeUint32Big(head.boneChannelCount); writer.writeUint32Big(head.boneChannelCount); auto cit = qChannels.begin(); for (const std::pair& bone : bones) { ChannelDesc desc; desc.id = bone.first; DNAANIM::Channel& chan = *cit++; desc.keyCount1 = keyframeCount; desc.initRX = chan.i[0]; desc.qRX = chan.q[0]; desc.initRY = chan.i[1]; desc.qRY = chan.q[1]; desc.initRZ = chan.i[2]; desc.qRZ = chan.q[2]; if (bone.second) { DNAANIM::Channel& chan = *cit++; desc.keyCount2 = keyframeCount; desc.initTX = chan.i[0]; desc.qTX = chan.q[0]; desc.initTY = chan.i[1]; desc.qTY = chan.q[1]; desc.initTZ = chan.i[2]; desc.qTZ = chan.q[2]; } desc.write(writer); } writer.writeUBytes(bsData.get(), bsSize); } size_t ANIM::ANIM2::binarySize(size_t __isz) const { Header head; WordBitmap keyBmp; for (atUint32 frame : frames) { while (keyBmp.getBit(frame)) ++frame; keyBmp.setBit(frame); } __isz = head.binarySize(__isz); __isz = keyBmp.binarySize(__isz); __isz += 8; for (const std::pair& bone : bones) { __isz += 17; if (bone.second) __isz += 9; } return __isz + DNAANIM::ComputeBitstreamSize(frames.size(), channels); } } }