約 3,607,516 件
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half of Parley サークル:M2ind Manufactory Number Track Name Arranger Original Works Original Tune Length 01 Let s Parley haLRu 東方妖々夢 妖々夢 ~ Snow or Cherry Petal [04 19] 02 vaultin haLRu 東方妖々夢 アルティメットトゥルース [05 59] 03 halflife haLRu 東方妖々夢 広有射怪鳥事 ~ Till When? [05 16] 04 heritage Groovetune 東方妖々夢 東方妖々夢 ~ Ancient Temple [07 29] 05 borderlife haLRu 東方妖々夢 ボーダーオブライフ [05 30] 06 Sakura-sakura -Bouncy GMS mix Longfi 東方妖々夢 さくらさくら ~ Japanize Dream... [05 29] 詳細 博麗神社例大祭8(2011/03/13)にて頒布予定 (東北地方太平洋沖地震の影響により開催中止) イベント価格:700円 ショップ価格:998円(税込) Arranger haLRu:(MONOMIND) Groovetune:(MindCircusRecords) Longfi:(Sound Team LORB) レビュー 名前 コメント
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[Refereed Papers] [2004] , [2006] , [2007] , [2008] , [2009] , [2012] Y. Kawada H. Nagahama (2004) Viscoelastic behaviour and temporal fractal properties of lherzolite and marble possible extrapolation from experimental results to the geological time-scale. Terra Nova, 16, 128-132. [Abstract] J. Muto, Y. Kawada H. Nagahama (2006) Micromorphic continuum with defects and Taylor-Bishop-Hill theory for polycrystals anisotropic propagation of seismic waves and Golebiewska gauge. In Teisseyre, R., Takeo, M. Majewski, E. (eds.) Earthquake Source Asymmetry, Structural Media and Rotation Effects, Springer-Verlag, Berlin, Chapter 24, 317-328. [Abstract] Y. Kawada H. Nagahama (2006) Cumulative Benioff strain-release, modified Omori s law and transient behaviour of rocks. Tectonophysics, 424, 157-166. [Abstract] Y. Kawada, H. Nagahama H. Hara (2006) Irreversible thermodynamic and viscoelastic model for power-law relaxation and attenuation of rocks. Tectonophysics, 427, 255-263. [Abstract] Y. Kawada, H. Nagahama, Y. Omori, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi (2007) Time-scale invariant changes in atmospheric radon concentration and crustal strain prior to a large earthquake. Nonlin. Processes Geophys., 13, 123-130. [Abstract] [PDF] Y. Kawada, H. Nagahama N. Nakamura (2007) Time-scale invariances in preseismic electromagnetic radiation, magnetization and damage mechanics of rocks. Nat. Hazards Earth Syst. Sci., 7, 599-606. [Abstract] [PDF] Y. Omori, Y. Yasuoka, H. Nagahama, Y. Kawada, T. Ishikawa, S. Tokonami M. Shinogi (2007) Anomalous radon exhalation linked to preseismic electromagnetic phenomena. Nat. Hazards Earth Syst. Sci., 7, 629-635. [Abstract] [PDF] Y. Yasuoka, H. Nagahama, T. Ishikawa, Y. Kawada, Y. Omori, S. Tokonami, T. Hashimoto M. Shinogi (2008) Changes in radon exhalation before the Kobe earthquake. In Miura, T. Kinoshita, N. (eds.) Proceedings of the Eighth Workshop on Environmental Radioactivity, High Eneregy Accelrated Research Organization (KEK), Tsukuba, 138-142. Y. Yasuoka, H. Nagahama, T. Ishikawa, Y. Kawada, Y. Omori, S. Tokonami M. Shinogi (2008) An anomalous increase in atmospheric radon prior to the Kobe earthquake. In Hattori, K. Telesca, L. (eds.) Electromagnetics in Seismic and Volcanic Areas, Yubunsha, Saitama, 29-34. T. Ishikawa, Y. Yasuoka, H. Nagahama, Y. Kawada, Y. Omori, S. Tokonami M. Shinogi (2008) Radon Anomalies Prior to Earthquakes (I) - Review of Previous Studies -. Hoken Butsuri (Jpn. J. Health Phys.), 43, 103-111 (in Japanese with English abstract). [Abstract] [PDF] (In English, (2010) In Yasuoka, Y., Nagahama, H. Ishikawa, T. (eds.), Anomalous Radon Concentration Prior to an Earthquake, a Case Study on the 1995 Kobe Earthquake, Japan, Lambert, Saarbrücken, Germany, 1-13.) T. Ishikawa, Y. Yasuoka, H. Nagahama, Y. Kawada, Y. Omori, S. Tokonami M. Shinogi (2008) Radon Anomalies Prior to Earthquakes (II) - Atmospheric Radon Anomaly Observed before the Hyogoken-Nanbu Earthquake -. Hoken Butsuri (Jpn. J. Health Phys.), 43, 253-267 (in Japanese with English abstract). [Abstract] [PDF] (In English, (2010) In Yasuoka, Y., Nagahama, H. Ishikawa, T. (eds.), Anomalous Radon Concentration Prior to an Earthquake, a Case Study on the 1995 Kobe Earthquake, Japan, Lambert, Saarbrücken, Germany, 15-39.) Y. Yasuoka, Y. Kawada, H. Nagahama, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi (2009) Preseismic changes in atmospheric radon concentration and crustal strain. Phys. Chem. Earth, 34, 431-434. [Abstract] Y. Omori, H. Nagahama, Y. Kawada, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi (2009) Preseismic alteration of atmospheric electrical conditions due to anomalous radon emanation. Phys. Chem. Earth, 34, 435-440. [Abstract] Y. Kawada, H. Nagahama, N. Uchida T. Matsuzawa (2009) Afterslip associated with interplate earthquakes and the viscoelastic behavior of rocks. Jour. Geol. Soc. Japan, 115, 448-456 (in Japanese with English abstract). [Abstract] [PDF] Y. Yasuoka, Y. Kawada, Y. Omori, H. Nagahama, T. Ishikawa, S. Tokonami, M. Hosoda, T. Hashimoto, M. Shinogi (2012) Anomalous change in atmospheric radon concentration sourced from broad crustal deformation A case study of the 1995 Kobe earthquake. Applied Geochemistry, 27, 825-830. [Abstract] Y. Yasuoka, T. Ishikawa, H. Nagahama, Y. Kawada, Y. Omori, S. Tokonami M. Shinogi (2012) Radon anomalies prior to earthquakes. In Hayakawa, M. (ed.), The Frontier of Earthquake Prediction Studies, Nihon-Senmontosho-Shuppan, Tokyo, Japan, 410-427 (in Japanese with English abstract). Y. Yasuoka, T. Ishikawa, Y. Omori, Y. Kawada, H. Nagahama, S. Tokonami M. Shinogi (2012) Anomalous Atmospheric Radon Variation before an Earthquake A Case Study of the 1995 Kobe Earthquake, Japan, In Li, Z. Feng, C. (eds.), Handbook of Radon Properties, Applications and Health, NOVA Sci. Pub., Hauppauge, USA. [Abstract] [PDF] ↑ Top of this page [Presentations (International Conferences)] [2003] , [2004] , [2005] , [2006] , [2007] , [2008] , [2009] , [2010] , [2012] Y. Kawada H. Nagahama, A high-temperature viscoelastic constitutive law for rocks with transient behavior. EGS-AGU-EUG Joint Assembly (Nice, France, 06-11 April, 2003), EAE03-A-08126. Session NP6 Data assimilation in Geophysics. In Geophysical Research Abstracts, 5, 08126. Y. Kawada H. Nagahama, Thermorheological constitutive laws for rocks with transient behavior. XXIII General Assembly of the International Union of Geodesy and Geophysics [IUGG 2003] (Sapporo, Japan, 30 June -11 July, 2003), JSS05/04A/A04-009. Session JSS05 Physics and Chemistry of Earth Materials (IASPEI, IAVCEI, IAGA), Elasticity and anelasticity. In Abstracts (week A), p. A.182. Y. Kawada, H. Nagahama H. Hara, The mechanical phase transition model for the viscoelastic relaxation behaviour of rocks introducing the "free-space volume for solids". 4th International Conference on Fractal and Dynamic Systems in Geoscience (Seeon, Germany, 19-22 May, 2004). In Books of Abstracts, p. 47. Y. Kawada H. Nagahama, Viscoelastic relaxation behaviours and temporal fractal properties for rocks and clays. Symposium Tectonics on Human Time Scales (Sprockhövel, Germany, 01-04 June, 2004), Poster-85. In Abstract volume, B. Stöckhert and G. Dresen (eds.), p. 171. J. Muto, Y. Kawada H. Nagahama, Micromorphic continuum with defects and lattice preferred orientation application to seismic anisotropy in polycrystals. Workshop on "Probing Earth Media Having Small-Scale Heterogeneities" (Sendai, Japan, 22 November, 2004), P06. In Proceedings, pp. 58-61. Y. Kawada, H. Nagahama H. Hara, Scaled Langevin equation and the inversion for viscoelastic behaviour of rocks. General Assembly of the European Geosciences Union 2005 [EGU2005] (Vienna, Austria, 24-29 April, 2005), EGU05-A-08365. Session NP3.06 Dynamics of seismicity patterns and earthquake triggering. In Geophysical Research Abstracts, 7, 08365. Y. Kawada, H. Nagahama H. Hara, Viscoelastic behaviour of rocks, scaled Langevin equation and the inversion. 15th Conference on Deformation Mechanisms, Rheology and Tectonics [DRT2005] (Zürich, Switzerland, 2-4 May, 2005). Session Scaling of Structures in Space and Time. In Abstract Volume, p. 120. Y. Kawada, H. Nagahama H. Hara, Scaled Langevin equation and the inversion for viscoelastic behavior of rocks in seismic time-scale theoretical approach. 21COE International Symposium 2005, Spatial and Temporal Fluctuations in the Solid Earth,Clues to the Future of Our Planet (Sendai, Japan, 22-27 October, 2005), Sp-23. Session Spatial and Temporal Fluctuations in the seismic phenomena. In Abstracts, pp. 158-161. Y. Kawada H. Nagahama, Temporal power-laws on preseismic activation and aftershock decay affected by transient behavior of rocks. The 4th International Workshop on Statistical Seismology [Statsei4] (Hayama (Kanagawa), Japan, 9-13 January, 2006). In ISM Report on Research and Education, 23, pp. 142-145. Y. Kawada H. Nagahama, Irreversible thermodynamics and time-scale invariance for viscoelastic behaviour of rocks. General Assembly of the European Geosciences Union 2006 [EGU 2006] (Vienna, Austria, 2-7 April, 2006), EGU06-A-06684. Session NP3.07 Scaling, scale and nonlinearity in Solid Earth. In Geophysical Research Abstracts, 8, 06684. Y. Kawada, H. Nagahama, Y. Omori, Y. Yasuoka M. Shinogi, Irreversible thermodynamic model for accelerated moment release and atmospheric radon concentration prior to large earthquakes. The 2006 AGU Fall Meeting (San Francisco, USA, 11-15 December, 2006), NG51B-1022. Session Spatiotemporal Evolution of Seismicity. In Eos, Transactions, American Geophysical Union, 87, Fall Meeting Supplement, NG51B-1022. Y. Kawada, H. Nagahama N. Nakamura, Temporal power-law change in rock magnetization prior to failure. General Assembly of the European Geosciences Union 2007 [EGU2007] (Vienna, Austria, 15-20 April, 2007), EGU2007-A-05946. Session NH4.03 Deformation processes and accompanying mechanical and electromagnetic phenomena, for rocks and other materials, from the laboratory to the geophysical scale, Selected as "Paper of Special Interest as Identified by Session/Event Organizers" . In Geophysical Research Abstracts, 9, 05946. Y. Omori, Y. Yasuoka, H. Nagahama, Y. Kawada, T. Ishikawa, S. Tokonami M. Shinogi, Variation of electric parameters in atmosphere due to radon exhalation prior to a large earthquake. General Assembly of the European Geosciences Union 2007 [EGU2007] (Vienna, Austria, 15-20 April, 2007), EGU2007-A-05945. Session NH4.02 Electric, magnetic and electromagnetic phenomena related to earthquakes. In Geophysical Research Abstracts, 9, 05945. Y. Yasuoka, H. Nagahama, Y. Kawada, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi, An anomalous increase in atmospheric radon prior to the Kobe earthquake. Bilateral Seminar Italy-Japan on Electromagnetics in Seismic and Volcanic Areas (Chiba, Japan, 25-27 July, 2007). Session A. Seismo-electromagentics. In Abstracts, (2 pages). H. Nagahama, Y. Kawada, Y. Omori, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi, Earthquake precursory phenomenon an anomalous increase in atmospheric radon concentration. EASTEC symposium 2007 Dynamic Earth -its origin and future- (Sendai, Japan, 18-21 September, 2007), ND-O03. Session Mitigation of Natural Disaster. In Program Abstracts, pp. 201-204. Y. Omori, Y. Yasuoka, H. Nagahama, Y. Kawada, T. Ishikawa, S. Tokonami M. Shinogi, Changes in atmospheric electrical conditions due to anomalous radon exhalation preceding large earthquakes. EASTEC symposium 2007 Dynamic Earth -its origin and future- (Sendai, Japan, 18-21 September, 2007), DE-P04. Session Dynamics of Earthquakes. In Program Abstracts, pp. 57-60. Y. Omori, H. Nagahama, Y. Kawada, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi, Increases in radon exhalation and changes of atmospheric electric parameters accompanying percolation process in crust. International Workshop on Seismo-Electromagnetic Phenomena [IWSEP2007] (Bandung, Indonesia, 6-7 November, 2007). In Abstracts, 31. Y. Kawada, H. Nagahama, Y. Yasuoka, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi, Power-law and log-periodic changes in precursory phenomena prior to large earthquakes. The 33rd International Geological Congress [33rd IGC] (Oslo, Norway, 6-14 August, 2008), MAG04108L. Session MAG-04 Scales, Scaling, Non-linearity and Complexity in the Geosciences. In Abstract CD-ROM. Y. Kawada, H. Nagahama, N. Uchida T. Matsuzawa, Temporal power-laws in mechanical relaxation of rocks and afterslip associated with interplate earthquakes. The 2008 AGU Fall Meeting (San Francisco, USA, 15-19 December, 2008), T53C-1968. Session T53C Base of the Crustal Seismogenic Zone. In Eos, Transactions, American Geophysical Union, 89, Fall Meeting Supplement, T53C-1968. Y. Kawada, H. Nagahama, N. Uchida T. Matsuzawa, Time-scale invariance in afterslip and mechanical relaxation of rocks. Frontiers of Seismology (Edinburgh, 2-3 April, 2009). Y. Kawada, M. Naylor, S. Touati I. Main, On the origin of power-law rheology during the evolution of damage. General Assembly of the European Geosciences Union 2010 [EGU2010] (Vienna, Austria, 2-7 May, 2010), EGU2010-10111. Session MPRG15/TS2.5 Scaling and localization during brittle rock failure. In Geophysical Research Abstracts, 12, 10111. Y. Kawada, T. Yajima H. Nagahama, Fractional order viscoelasticity and theoretical progress in rheological constitutive law for rocks. 2010 AGU Fall Meeting (San Francisco, 13-17 December, 2010), MR41A-1977. Session MR41A Elasticity, Plasticity, and Mechanical Properties of Mantle Minerals. Y. Kawada, Rheological constitutive law for rocks and minerals with noninteger-order derivative. Soft Matter Physics and Solid Earth Sciences Unifying Concepts (Tokyo, 5-8 June, 2012). Y. Kawada T. Yamashita, Slip-weakening and -strengthening due to Fractional Poroelastic Effect in One Dimension Fault Slip Model. IUGG Conference on Mathematical Geophysics (Edinburgh, 18-22 June, 2012), CD23. Session Crustal Dynamics. ↑ Top of this page [Presentations (Japanese Conferences)] [2003] , [2004] , [2005] , [2006] , [2007] , [2008] , [2009] , [2010] , [2011] , [2012] Y. Kawada, H. Nagahama H. Hara, The phase transition model on high-temperature viscoelastic behavior of rocks. The 110th Annual Meeting of the Geological Society of Japan (Shizuoka, 19-21 September, 2003), O-230. Y. Kawada, Viscoelastic behavior of rocks and its phase transition model. Fluid motion in mantle wedge and crust and the role / Seminor of Dynamics of Earthquakes and Volcanism Research Subgroup, the 21st Century COE Program "Advanced Science and Technology Center for Dynamic Earth", Tohoku University (Kami (Miyagi), 22-23 February, 2004). Y. Kawada, H. Nagahama H. Hara, Viscoelastic relaxation behaviors for rocks and clays and their phase transition model. The 111st Annual Meeting of the Geological Society of Japan (Chiba, 18-20 September, 2004), O-129. H. Nagahama, J. Muto, Y. Kawada T. Yajima, Seismic ray theory and Finsler geometry. The 111st Annual Meeting of the Geological Society of Japan (Chiba, 18-20 September, 2004), O-130. Y. Kawada, H. Nagahama H. Hara, Viscoelastic behavior of rocks described by scaled Langevin equation and the inversion. 2005 Japan Earth and Planetary Science Joint Meeting (Chiba, 22-26, May, 2005), J064-P013. Y. Kawada, H. Nagahama H. Hara, Long time tail for mechanical relaxation behavior of rocks and the response to earthquakes. The 112nd Annual Meeting of the Geological Society of Japan (Kyoto, 18-20 September, 2005), P-109. Y. Kawada H. Nagahama, Irreversible thermodynamics for viscoelastic behavior of rocks and temporal seismicity patterns. Japan Geoscience Union Meeting 2006 (Chiba, 14-18 May, 2006), I142-P011. Y. Kawada H. Nagahama, Strain-release process and nonlinear flow law of crustal rocks prior to a mainshock. The 113rd Annual Meeting of the Geological Society of Japan (Kochi, 16-18 September, 2006), P-70. H. Nagahama, Y. Kawada, Y. Omori, Y. Yasuoka M. Shinogi, Strain-release process of crustal rocks and atmospheric radon concentration prior to a mainshock. The 113rd Annual Meeting of the Geological Society of Japan (Kochi, 16-18 September, 2006), P-71. Y. Yasuoka, H. Nagahama, T. Ishikawa, Y. Kawada, Y. Omori, S. Tokonami, T. Hashimoto M. Shinogi, Changes in radon exhalation before the Kobe earthquake. The Eighth Workshop on Environmental Radioactivity (Tsukuba, 22-24 March, 2007) 12. Y. Kawada, H. Nagahama, Y. Omori, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi, Preseismic change in atmospheric radon concentration and crustal damage process. Japan Geoscience Union Meeting 2007 (Chiba, 19-24 May, 2007), S142-P006. H. Nagahama Y. Kawada, Damage evolution of crust and radon emanation prior to a large earthquake. The 114th Annual Meeting of the Geological Society of Japan (Sapporo, 9-11 September, 2007), P-99, Awarded "the Excellent Presentation Prize of the GSJ"! Y. Yasuoka, Y. Kawada, H. Nagahama, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi, Relationships between radon exhalation and stress-strain prior to the 1995 Hyogoken-Nanbu Earthquake. 42th Annual Meeting of The Japan Health Physics Society (Ginowan, 26-27 June, 2008), AS-4, Awarded "the Kariyushi Prize (Excellent Oral Presentation Prize of the JHPS)"! Y. Yasuoka, Y. Kawada, H. Nagahama, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi, Coincidence between radon exhalation and stress-strain before the 1995 Hyogoken-Nanbu Earthquake. 55th Annual Meeting of the Geochemical Society of Japan (Tokyo, 17-19 September, 2008), 1B15 (10-04). H. Nagahama, Y. Kawada, Y. Yasuoka, Y. Omori, T. Ishikawa, S. Tokonami M. Shinogi, Coupling change in crustal strain and atmospheric radon concentration prior to a large earthquake. The 115th Annual Meeting of the Geological Society of Japan (Akita, 20-22 September, 2008), P-97. Y. Kawada, H. Nagahama, N. Uchida T. Matsuzawa, Temporal pattern in afterslip and mechanical relaxation of rocks, Japan Geoscience Union Meeting 2009 (Chiba, 16-21 May, 2009), J137-P001. Y. Omori, H. Nagahama, Y. Kawada, Y. Yasuoka, T. Ishikawa, S. Tokonami M. Shinogi, Changes of atmospheric electrical conditions due to preseismic radon emanation theoretical approach, Japan Geoscience Union Meeting 2009 (Chiba, 16-21 May, 2009), Z178-P004. Y. Yasuoka, H. Nagahama, Y. Kawada, Y. Omori, M. Shimo, T. Ishikawa, S. Tokonami, T. Hashimoto, M. Shinogi, Source of anomalous increase in atmospheric radon before the Kobe earthquake, 43th Annual Meeting of The Japan Health Physics Society (Higashiosaka, 3-4 June, 2009), A16. H. Nagahama, Y. Kawada, N. Uchida T. Matsuzawa, Analysis of the temporal pattern of afterslip based on the constitutive law for viscoelastic behaviour of rocks. The 116th Annual Meeting of the Geological Society of Japan (Okayama, 4-6 September, 2009), P-83. Y. Kawada, M. Naylor, S. Touati I. Main, Power-law rheology and microscopic heterogeneity. Japan Geoscience Union Meeting 2010 (Chiba, 16-21 May, 2010), SIT037-P09. Y. Kawada, T. Yajima, H. Nagahama, Constitutive law of rock rheology with fractional order derivative. Japan Geoscience Union Meeting 2011 (Chiba, 22-27 May, 2011), SIT039-P12. Y. Kawada H. Nagahama, Phenomenological constitutive law for transient rheological behavior of rocks and minerals. Japan Geoscience Union Meeting 2012 (Chiba, 20-25 May, 2012), SIT42-09. ↑ Top of this page [Others] Y. Kawada, Summer School of Seismology 2004 (Japan) (Naruko (Miyagi), Japan, 4-6 August, 2004). Y. Kawada, The Summer School in Complexity Science (Wye (Kent), United Kingdom, 9-17 July, 2007). ↑ Top of this page
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fragments of evolved サークル:Floresta Prateada Number Track Name Arranger Original Works Original Tune Length 01 gapeseed えふ 東方妖々夢 妖々夢 [-- --] 02 rove the reverie えふ 東方風神録 人恋し神様 [-- --] 03 fragments of evolved えふ 東方風神録 信仰は儚き人間の為に [-- --] 04 only end -inst- えふ 東方妖々夢 幽雅に咲かせ、墨染の桜 [-- --] 05 playful scaret えふ 東方紅魔郷 亡き王女の為のセプテット [-- --] 詳細 コミックマーケット76(2009/8/15)にて頒布 イベント価格:300円 ショップ価格:なし レビュー 名前 コメント
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《Agent of Stromgald》 #whisper マナフィルターなクリーチャー。 赤→黒限定のフィルター能力を持つ。 黒赤デッキでの色事故対策としてももちろん機能するが、本命は生命吸収/Drain Life用と考えておけば間違いない。 類似クリーチャーの漆黒の手の信徒/Initiates of the Ebon Handと比べると、 色限定になっている分、1ターンにいくらでも変換できる。 赤黒デッキならば、漆黒の手の信徒の代わりにいれてもいいだろう。 非常に珍しい「1マナの騎士」である。未来予知現在、該当カードはこれと勇猛な反対派/Lionheart Maverickのみ。--性能的にもカード名的にも、ストロームガルドの災い魔、ハーコン/Haakon, Stromgald Scourgeが最良の上司。生け贄手段と合わせて墓地と場を回転するコンボパーツとしてだけでなく、ハーコンのダブルシンボルを安定化することもできる。 参考 ストロームガルド騎士団/The Knights of Stromgald(背景世界/ストーリー用語) カード個別評価:アイスエイジブロック
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Research Analysis The market research report profiles well-balanced information with previous as well as future results with an aim to offer a better understanding of the Wastepaper Management Market . The market report further offers an in-depth view of the leading factors that are related to increasing the demand growth for Wastepaper Management Market . Not only this but also in this study the readers can get an in-depth report of the possibilities in combination with the latest trends in the targeted market. It is also a detailed combination of 10 years old qualitative and quantitative analysis of the industry that has been presented in the report with an aim to help the market players to increase maximum profit in the sector. The market research report also provides information on the record of individual sales records that are made with the expected revenue over the forecast period. 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Geographical segmentation is also being done to get valuable insights into the Wastepaper Management Market . Geographical Analysis Doing the geographical analysis is very important to know about the broad feature of the market. In this section, the readers can get a comprehensive analysis of the Wastepaper Management Market based on the geographical location. This section throws light on the demand and sales output for the Wastepaper Management Market at the national and international levels. The study is being done taking into account some of the major geographic regions such as North America, Europe, Asia Pacific, South America, Middle East, and Africa. Make an Enquiry for purchasing this Report @ https //www.quincemarketinsights.com/enquiry-before-buying/enquiry-before-buying-88268?pu Market Key Highlights The market report on the Wastepaper Management Market is a summary of the current market situation for the Wastepaper Management Market . 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Quince Market Insights Top Trending Research Report* https //qmi189135117.wordpress.com/2022/09/16/cumene-sulfonic-acid-market-size-industry-growth-rate-global-share-upcoming-trends-leading-players-products-and-services-overview-forecast-to-2032/ https //qmi189135117.wordpress.com/2022/09/16/3-hexenyl-salicylate-market-key-findings-growth-prospects-and-size-by-country-top-manufacturer-expansion-plans-and-business-strategy-forecast-to-2032/ https //qmi189135117.wordpress.com/2022/09/16/ethylene-glycol-monostearate-market-trends-growth-size-swot-analysis-opportunity-assessment-by-forecast-to-2021-drivers-and-applications-are-pertinent-for-sustenance-during-the-forecast-period-20/ Details Contained In The Wastepaper Management Market Report 2021 Market Overview 1.1 Market Introduction 1.2 Market Analysis By Type 1.2.1 Type 1 1.2.2 Type 2 1.3 Market Analysis By Applications 1.3.1 Application 1 1.3.2 Application 2 1.4 Market Analysis by Regions 1.4.1 North America 1.4.2 Europe 1.4.3 Asia Pacific 1.4.4 South America 1.4.5 the Middle East and Africa Market Scope Market Segmentation by type, application, end-users and regions Market Size estimation Market Competition Key Market Leaders Conclusions The market research report offers a detailed study of the Wastepaper Management Market which include market shares, size and growth opportunities by applications, product types and geographic regions. Not only this but also the report also contains a detailed summary of the leading market players. The experts have also mentioned the market growth, threats, opportunities and risks. About Us QMI has the most comprehensive collection of market research products and services available on the web. We deliver reports from virtually all major publications and refresh our list regularly to provide you with immediate online access to the world’s most extensive and up-to-date archive of professional insights into global markets, companies, goods, and patterns. Contact us Quince Market Insights Phone +1 208 405 2835 Email sales@quincemarketinsights.com Website https //www.quincemarketinsights.com/
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編集 翻訳者コメント 以下のページの個人的和訳です。http //www.minecraftforge.net/wiki/Netty_Packet_Handling 現在、翻訳中です。(2014/07/09) なるたけ原文(英文)を併記しますので、意味不明・曖昧な場合は参照下さい。 AKさん日本語訳 http //forum.minecraftuser.jp/viewtopic.php?f=21=18255 リンク切れ? 編集 Netty Packet Handling Warning This page is marked as Outdated. It was made for older content and may cause problems. Please improve this article if you can. 注意!! このページの内容は「古い」と申告されています。 古い情報に基づき判断すると、問題が生じる可能性があります。 もし可能であれば、このページの内容を改善して下さい。 This is a How-To guide or Tutorial detailing a practice or process for Minecraft Forge or related software. このガイドは「How-to どうやってやるか」のガイド、またはチュートリアルです。 Minecraft Forge やその関係ソフトウェアを使う方法を示したものです。 This page was made for Minecraft 1.7.2. It might not work with other versions. This is a poor example of using Netty. It can cause memory leaks. It doesn t separate handlers from codecs properly. It reimplements functionality existant in FML for months. If you are using this, consider switching to using FMLIndexedMessageToMessageCodec, or better yet,use the simpleimpl Message functionality. このページの内容は Minecraft 1.7.2 に対応していますが、他のバージョンでは動作しない可能性があります。 本ページで紹介するコードは Netty を使用するための簡易なものであり、メモリーリークを生じる可能性もあります。 Handler 類を正しく切り離していません。 FML に何ヶ月も既に存在している機能を再実装しています。 もし FML を使用しているのであれば、FMLIndexedMessageToMessageCodec や simpleimpl Message 機能を使用する事を検討してみて下さい。 コンテンツ/ 1 DO NOT USE THIS IN NEW CODE OR CONVERSIONS 2 Example Packet Structure 2.1 AbstractPacket Class 3 The Packet Handler 3.1 PacketPipeline Class 4 Registering the Pipeline 4.1 Within your @Mod Class 5 Registering Packets 6 Implementation 7 Authors DO NOT USE THIS IN NEW CODE OR CONVERSIONS / 本文書の内容を新しいバージョンで使用しないでください Below is a short alternative to the SimpleChannelHandler now present within FML. It allows for automatic discriminator generation and sided packet handling within the packets themselves. 以下の内容は、FML の SimpleChannelHandler に現在は含まれている内容と僅かに異なるものです。 以下では、パケット自体に自動的にサイド(Server/Client)を識別し、ハンドリングする機能を追加しています。 編集 Example Packet Structure / 例示するパケットの構造 Below is a common abstract packet that should be extended by any packet that you wish to send. Any resultant behaviour from the packet can be described in the side specific *handle* methods. NOTE All children of this class *MUST* have an empty constructor (multiple constructors is fine!) 以下に示すのは、あなたが作成したいパケットの拡張元とする汎用的な抽象クラスです。 パケットの受け取り処理は、それぞれ処理サイド(Server/Client)を指定した handle 関数で処理します。 メモ:この抽象クラスを拡張する全てのクラスは、”必ず”空のコンストラクタを持たなくてはなりません。 AbstractPacket Class package you.packethandling import io.netty.buffer.ByteBuf; import io.netty.channel.ChannelHandlerContext; import net.minecraft.entity.player.EntityPlayer; /** * AbstractPacket class. Should be the parent of all packets wishing to use the PacketPipeline. * パケットの汎用抽象クラス。 * 以下で示す PacketPipeline を使用したい場合は、本クラスから拡張した packet クラスを使用する事。 * * @author sirgingalot */ public abstract class AbstractPacket { /** * Encode the packet data into the ByteBuf stream. * Complex data sets may need specific data handlers * (See @link{cpw.mods.fml.common.network.ByteBuffUtils}) * * @param ctx channel context * @param buffer the buffer to encode into */ public abstract void encodeInto(ChannelHandlerContext ctx, ByteBuf buffer); /** * Decode the packet data from the ByteBuf stream. * Complex data sets may need specific data handlers * (See @link{cpw.mods.fml.common.network.ByteBuffUtils}) * * @param ctx channel context * @param buffer the buffer to decode from */ public abstract void decodeInto(ChannelHandlerContext ctx, ByteBuf buffer); /** * Handle a packet on the client side. * Note this occurs after decoding has completed. * * @param player the player reference */ public abstract void handleClientSide(EntityPlayer player); /** * Handle a packet on the server side. * Note this occurs after decoding has completed. * * @param player the player reference */ public abstract void handleServerSide(EntityPlayer player); } 編集 The Packet Handler Core packet handling. Essentially it automatically maps a packet to a discriminator, allowing in line encoding/decoding of packet specific data. It also allows sided behaviour to be handled by the packets themselves. NOTE Remember to rename the channel as it is currently "TUT" 以下、パケット処理クラスの主要部を説明する。 PacketPipeline Class package you.packethandling; import java.util.*; import io.netty.buffer.ByteBuf; import io.netty.buffer.Unpooled; import io.netty.channel.ChannelHandler; import io.netty.channel.ChannelHandlerContext; import io.netty.handler.codec.MessageToMessageCodec; import net.minecraft.client.Minecraft; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.entity.player.EntityPlayerMP; import net.minecraft.network.INetHandler; import net.minecraft.network.NetHandlerPlayServer; import cpw.mods.fml.common.FMLCommonHandler; import cpw.mods.fml.common.network.FMLEmbeddedChannel; import cpw.mods.fml.common.network.FMLOutboundHandler; import cpw.mods.fml.common.network.NetworkRegistry; import cpw.mods.fml.common.network.internal.FMLProxyPacket; import cpw.mods.fml.relauncher.Side; import cpw.mods.fml.relauncher.SideOnly; /** * Packet pipeline class. Directs all registered packet data to be handled by the packets themselves. * @author sirgingalot * some code from cpw */ @ChannelHandler.Sharable public class PacketPipeline extends MessageToMessageCodec FMLProxyPacket, AbstractPacket { private EnumMap Side, FMLEmbeddedChannel channels; private LinkedList Class ? extends AbstractPacket packets = new LinkedList Class ? extends AbstractPacket (); private boolean isPostInitialised = false; /** * Register your packet with the pipeline. Discriminators are automatically set. * * @param clazz the class to register * * @return whether registration was successful. Failure may occur if 256 packets have been registered or if the registry already contains this packet */ public boolean registerPacket(Class ? extends AbstractPacket clazz) { if (this.packets.size() 256) { // You should log here!! return false; } if (this.packets.contains(clazz)) { // You should log here!! return false; } if (this.isPostInitialised) { // You should log here!! return false; } this.packets.add(clazz); return true; } // In line encoding of the packet, including discriminator setting @Override protected void encode(ChannelHandlerContext ctx, AbstractPacket msg, List Object out) throws Exception { ByteBuf buffer = Unpooled.buffer(); Class ? extends AbstractPacket clazz = msg.getClass(); if (!this.packets.contains(msg.getClass())) { throw new NullPointerException("No Packet Registered for " + msg.getClass().getCanonicalName()); } byte discriminator = (byte) this.packets.indexOf(clazz); buffer.writeByte(discriminator); msg.encodeInto(ctx, buffer); FMLProxyPacket proxyPacket = new FMLProxyPacket(buffer.copy(), ctx.channel().attr(NetworkRegistry.FML_CHANNEL).get()); out.add(proxyPacket); } // In line decoding and handling of the packet @Override protected void decode(ChannelHandlerContext ctx, FMLProxyPacket msg, List Object out) throws Exception { ByteBuf payload = msg.payload(); byte discriminator = payload.readByte(); Class ? extends AbstractPacket clazz = this.packets.get(discriminator); if (clazz == null) { throw new NullPointerException("No packet registered for discriminator " + discriminator); } AbstractPacket pkt = clazz.newInstance(); pkt.decodeInto(ctx, payload.slice()); EntityPlayer player; switch (FMLCommonHandler.instance().getEffectiveSide()) { case CLIENT player = this.getClientPlayer(); pkt.handleClientSide(player); break; case SERVER INetHandler netHandler = ctx.channel().attr(NetworkRegistry.NET_HANDLER).get(); player = ((NetHandlerPlayServer) netHandler).playerEntity; pkt.handleServerSide(player); break; default } out.add(pkt); } // Method to call from FMLInitializationEvent public void initialise() { this.channels = NetworkRegistry.INSTANCE.newChannel("TUT", this); } // Method to call from FMLPostInitializationEvent // Ensures that packet discriminators are common between server and client by using logical sorting public void postInitialise() { if (this.isPostInitialised) { return; } this.isPostInitialised = true; Collections.sort(this.packets, new Comparator Class ? extends AbstractPacket () { @Override public int compare(Class ? extends AbstractPacket clazz1, Class ? extends AbstractPacket clazz2) { int com = String.CASE_INSENSITIVE_ORDER.compare(clazz1.getCanonicalName(), clazz2.getCanonicalName()); if (com == 0) { com = clazz1.getCanonicalName().compareTo(clazz2.getCanonicalName()); } return com; } }); } @SideOnly(Side.CLIENT) private EntityPlayer getClientPlayer() { return Minecraft.getMinecraft().thePlayer; } /** * Send this message to everyone. * p/ * Adapted from CPW s code in cpw.mods.fml.common.network.simpleimpl.SimpleNetworkWrapper * * @param message The message to send */ public void sendToAll(AbstractPacket message) { this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGET).set(FMLOutboundHandler.OutboundTarget.ALL); this.channels.get(Side.SERVER).writeAndFlush(message); } /** * Send this message to the specified player. * p/ * Adapted from CPW s code in cpw.mods.fml.common.network.simpleimpl.SimpleNetworkWrapper * * @param message The message to send * @param player The player to send it to */ public void sendTo(AbstractPacket message, EntityPlayerMP player) { this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGET).set(FMLOutboundHandler.OutboundTarget.PLAYER); this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGETARGS).set(player); this.channels.get(Side.SERVER).writeAndFlush(message); } /** * Send this message to everyone within a certain range of a point. * p/ * Adapted from CPW s code in cpw.mods.fml.common.network.simpleimpl.SimpleNetworkWrapper * * @param message The message to send * @param point The {@link cpw.mods.fml.common.network.NetworkRegistry.TargetPoint} around which to send */ public void sendToAllAround(AbstractPacket message, NetworkRegistry.TargetPoint point) { this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGET).set(FMLOutboundHandler.OutboundTarget.ALLAROUNDPOINT); this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGETARGS).set(point); this.channels.get(Side.SERVER).writeAndFlush(message); } /** * Send this message to everyone within the supplied dimension. * p/ * Adapted from CPW s code in cpw.mods.fml.common.network.simpleimpl.SimpleNetworkWrapper * * @param message The message to send * @param dimensionId The dimension id to target */ public void sendToDimension(AbstractPacket message, int dimensionId) { this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGET).set(FMLOutboundHandler.OutboundTarget.DIMENSION); this.channels.get(Side.SERVER).attr(FMLOutboundHandler.FML_MESSAGETARGETARGS).set(dimensionId); this.channels.get(Side.SERVER).writeAndFlush(message); } /** * Send this message to the server. * p/ * Adapted from CPW s code in cpw.mods.fml.common.network.simpleimpl.SimpleNetworkWrapper * * @param message The message to send */ public void sendToServer(AbstractPacket message) { this.channels.get(Side.CLIENT).attr(FMLOutboundHandler.FML_MESSAGETARGET).set(FMLOutboundHandler.OutboundTarget.TOSERVER); this.channels.get(Side.CLIENT).writeAndFlush(message); } } 編集 Registering the Pipeline Because of the self contained nature of the packet pipeline the following is all that needs to be done to register your handler within FML Within your @Mod Class public static final PacketPipeline packetPipeline = new PacketPipeline(); @EventHandler public void initialise(FMLInitializationEvent evt) { packetPipeline.initialise(); } @EventHandler public void postInitialise(FMLPostInitializationEvent evt) { packetPipeline.postInitialise(); } 編集 Registering Packets Packets can be registered up to the postInitialisation phase of the packet pipeline. Packet registration is performed by calling the registerPacket(Class ? extends AbstractPacket clazz) method in the Packet Pipeline. 編集 Implementation Using the packet pipeline is as simple as writing a custom class extending AbstractPacket and registering it with the pipeline. For example implementations please look at the links below Tinker s Construct Packets (Many thanks to fuj1n) Authors Sirgingalot 15 59 19 January 2014 編集
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Gentlemen scarcely dress in hats while in the modern occasions. The truth is, it is just a pity without the decoration of hats for men. It does not matter if preventing the exposing of sun or embellishing your deal with shape or concealing your hair, a hat can complete all the procedures in one action. No matter whether during the historical past or at the moment, hats play an important element of ornament and useful perform. Hats are becoming an additional title of individuality and personality. We are able to remember of a person s personalized characteristics by his hat. With the recurrence of classical style, hats become a men s trend accent yet again not too long ago. Leading Hats It is important to mention the top hats which are offered from the Victoria periods once we converse about men s hats. Though we can easily only see them from the European actions or I the films, we should always not neglect them. The highest hats which array between fourteen and 19 CM in top ended up in vogue for additional than one century. Hats are the symbol of men s position in that time. It can be stated that there are two rationale that why hats are so well-liked in that time period. A person explanation is that adult males will glance much taller donning top rated hats, and yet another motive is always that they are going to be steadfast within the head if they ride a horse for their deep condition. Fedora Hats If we say the best hats are well known within the earlier, then the fedora hats are fashionable within our present day time. This sort of hats is rather practical. Irrespective of whether you should don everyday garments or formal outfits, they may be ideal. Any time you are hurried to head out and possess no adequate time for you to distinct up your hair, a pleasant fedora hat can solve your problem in a single minute. Equally the lads who take care of their particulars and those celebs locate out the magic results on the fedora hats. They take into account hats as their top secret weapon from the urgent situation. Ideas Fedora hats usually are not appropriate for the people who have round condition face. The fedora hats are inverted cone form, the round form cannot highlight the best result of this kind of hats. Moreover, the spherical hats will look fatter with all the fedora hats. Because of this, the fedora hats tend to be more appropriate for the individuals who have incredibly slim facial area. Peaked Cap Peaked caps originally are to the hunters after they go looking. Hence, they re also new york baseball cap called searching caps. From the spring and in summer time, the peaked caps are combined with the athletics style. Loads of designers wish to increase to some peaked cap to their activity suits. For that supplies in the caps, there are actually caps of the silk material, artificial fiber or thread forming and the like. Tips The brims with the caps are often very reduced, so that they will have an affect in your experience shape. The sq. - form encounter can dress in the peaked caps to slender the encounter determine. Baseball Caps The baseball hats are practically acceptable for all types of confront determine. The straightforward fashion along with the leisure function make them favored by the typical people today along with the celebs. The extensive hat brim can not only have the shades influence but in addition can embellish your facial area figure. They are often the superbly matched with all types of leisure suites. Cowboy Hat The cowboy hats derive with the center west of The usa. They are really primarily produced of felt that may resist the rain and wind. Having said that, the cowboy hats nowadays are mainly worn for functionality the decoration. They may have wild and handsome visual appeal as well as the elements will also be altered lots. The elements of cowboy hats inside our modern day situations are lighter than right before, these types of as cotton and flax. In addition the colour might have quite a few versions although not confined towards the regular black and brown. They will make adult men seem like a troublesome person or more masculine. Guidelines The oval deal with form is bold within the determine, the cowboy hats are appropriate for them and spotlight their face determine. Panama Hat This sort of hats could be worn in summer as well as in the spring, for they can be cheap yankees hats generally designed of grass stalks, flax or bamboo stalks and can be ventilated nicely. There are several kinds of Panama hats, among which the best hats may take about 3 months in producing them.
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Valor MAG Clan[HAM]Harmony2ArmsofM8 (Harmony to Arms of Mate) Valor active in clan [HAM] is a web site. Clan Details 【Clan Tag】[HAM] 【Clan Name】Harmony2ArmsofM8(Harmony to Arms of Mate) 【PMC】Valor Clan Policy Our clan [HAM] is "Win at Baylor! Also enjoy losing! MAG has been playing in the stance. Fun s play Observe the common sense and manners! Core time [HAM] has been playing mostly seized. The main activity time is when a lot of people here at 20 to 25, some members in a high rate during the day or late at night. 更新履歴 取得中です。
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Wilsons Menthol Plus Snuff Brand Wilsons Name Menthol Plus Style Grind Moisture Kick nicotine Recommend Notes(JPN) Notes(EN) another review Shop @marscigars.com Eucalyptus, Menthol Camphor give the "Menthol Plus" snuff its cool flavor. Tobaccos included are Zimbabwe Burley Flue. Also known as Wilson s Menthol. Customer @marscigars.com one of wilsons best menthols that i have tried. clean feeling. not to harsh, not to weak. good fine grind, medium brown color. flows through nose to throat nicely, no clogging. not to hard on the euc and camphor. lighter then sm 500, harder then sm brown and blue, etc. one of my favorite wilsons menthols... Customer @marscigars.com this is one of the strongest menthols from good old Big Willy, out of the ones avalible in the USA! i always have it in the collection. it is a fine to med. grind. it flavor is just straight menthol and alot of it. it is like putting icy hot menth rub up your nose minus the icy part, LOL. unlike sm 500 and sm blue-brown, etc. it has a hot burning menthol kick, not that refreshing coolness you get from the others. it is very strong and can be very harsh on the nose and throat. it does have a pleasnt taste after you make it through the kick, and is about the most neutral flavor out of the wilson menthols. it is medium brown in color. semi moist, about the same as SM 500. it is also a good mixer and has a better then average nic kick, but i am unsure if the kick is nic based, or if it is just a adrenaline rush from the eye watering burning pain that is envolved. i rate it lower at a three just because of the harshness and the one dementional aspect of it. i do at times find myself having a very good time with this one, though. and at times it is the only one that hits that certin spot when i am on an abusive streak, lol. Smarvy @Snuffhouse.org Here is another strongly mentholated Wilson s snuff, as indicated by the name. Avery similar grind and moisture content to SM 500, that is to say, fairly fine and lightly moist, showing a bit of clumping in the tin. The color is noticeably darker than the SM 500 however. The tin aroma is interestingly not as strong as SM 500, it is still strong menthol, but sweeter somehow and a bit more subdued. Upon taking a pinch, the sweetness becomes very apparent to me, but is quickly overblown by the strong menthol flavor. As this menthol tapers of a bit after 20-30 seconds, the sweetness of the tobacco comes back out and balances the menthol nicely. This is another fine menthol that does not clog the nose due to it s fine grind, and for me it is very pleasant. I am an inveterate menthol supporter, so some may find this too strongly mentholated for their tastes, but I quite like it. I prefer it over SM 500, mainly because of this sweet flavor that I cannot define the source of. It complements the menthol, and is reminiscent of a mint patty. If you like a strong menthol snuff, this one is a winner! omegapd @Snuffhouse.org The description on Mars webpage says it s menthol, eucalyptus and camphor. Like Justin, I also noticed a very sweet flavor and find it to be pretty complex. The menthol is of course #1 in the recipe but the sweetness comes through very strong also. For some reason, this snuff gives me quite a boost...I don t know if it s an actual nicotine boost or just a feeling from the ingredients. I like it quite a bit. It could never be an all day snuff for me, but as an occasional "eye opener" in the morning it works really well.
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CHAPTER VI UP CHAPTER VIII CHAPTER VII Anne Says Her Prayers When Marilla took Anne up to bed that night she said stiffly "Now, Anne, I noticed last night that you threw your clothes all about the floor when you took them off. That is a very untidy habit, and I can t allow it at all. As soon as you take off any article of clothing fold it neatly and place it on the chair. I haven t any use at all for little girls who aren t neat." "I was so harrowed up in my mind last night that I didn t think about my clothes at all," said Anne. "I ll fold them nicely tonight. They always made us do that at the asylum. Half the time, though, I d forget, I d be in such a hurry to get into bed nice and quiet and imagine things." "You ll have to remember a little better if you stay here," admonished Marilla. "There, that looks something like. Say your prayers now and get into bed." "I never say any prayers," announced Anne. Marilla looked horrified astonishment. "Why, Anne, what do you mean? Were you never taught to say your prayers? God always wants little girls to say their prayers. Don t you know who God is, Anne?" "`God is a spirit, infinite, eternal and unchangeable, in His being, wisdom, power, holiness, justice, goodness, and truth, " responded Anne promptly and glibly. Marilla looked rather relieved. "So you do know something then, thank goodness! You re not quite a heathen. Where did you learn that?" "Oh, at the asylum Sunday-school. They made us learn the whole catechism. I liked it pretty well. There s something splendid about some of the words. `Infinite, eternal and unchangeable. Isn t that grand? It has such a roll to it--just like a big organ playing. You couldn t quite call it poetry, I suppose, but it sounds a lot like it, doesn t it?" "We re not talking about poetry, Anne--we are talking about saying your prayers. Don t you know it s a terrible wicked thing not to say your prayers every night? I m afraid you are a very bad little girl." "You d find it easier to be bad than good if you had red hair," said Anne reproachfully. "People who haven t red hair don t know what trouble is. Mrs. Thomas told me that God made my hair red ON PURPOSE, and I ve never cared about Him since. And anyhow I d always be too tired at night to bother saying prayers. People who have to look after twins can t be expected to say their prayers. Now, do you honestly think they can?" Marilla decided that Anne s religious training must be begun at once. Plainly there was no time to be lost. "You must say your prayers while you are under my roof, Anne." "Why, of course, if you want me to," assented Anne cheerfully. "I d do anything to oblige you. But you ll have to tell me what to say for this once. After I get into bed I ll imagine out a real nice prayer to say always. I believe that it will be quite interesting, now that I come to think of it." "You must kneel down," said Marilla in embarrassment. Anne knelt at Marilla s knee and looked up gravely. "Why must people kneel down to pray? If I really wanted to pray I ll tell you what I d do. I d go out into a great big field all alone or into the deep, deep, woods, and I d look up into the sky--up--up--up--into that lovely blue sky that looks as if there was no end to its blueness. And then I d just FEEL a prayer. Well, I m ready. What am I to say?" Marilla felt more embarrassed than ever. She had intended to teach Anne the childish classic, "Now I lay me down to sleep." But she had, as I have told you, the glimmerings of a sense of humor--which is simply another name for a sense of fitness of things; and it suddenly occurred to her that that simple little prayer, sacred to white-robed childhood lisping at motherly knees, was entirely unsuited to this freckled witch of a girl who knew and cared nothing bout God s love, since she had never had it translated to her through the medium of human love. "You re old enough to pray for yourself, Anne," she said finally. "Just thank God for your blessings and ask Him humbly for the things you want." "Well, I ll do my best," promised Anne, burying her face in Marilla s lap. "Gracious heavenly Father--that s the way the ministers say it in church, so I suppose it s all right in private prayer, isn t it?" she interjected, lifting her head for a moment. "Gracious heavenly Father, I thank Thee for the White Way of Delight and the Lake of Shining Waters and Bonny and the Snow Queen. I m really extremely grateful for them. And that s all the blessings I can think of just now to thank Thee for. As for the things I want, they re so numerous that it would take a great deal of time to name them all so I will only mention the two most important. Please let me stay at Green Gables; and please let me be good-looking when I grow up. I remain, "Yours respectfully, Anne Shirley. "There, did I do all right?" she asked eagerly, getting up. "I could have made it much more flowery if I d had a little more time to think it over." Poor Marilla was only preserved from complete collapse by remembering that it was not irreverence, but simply spiritual ignorance on the part of Anne that was responsible for this extraordinary petition. She tucked the child up in bed, mentally vowing that she should be taught a prayer the very next day, and was leaving the room with the light when Anne called her back. "I ve just thought of it now. I should have said, `Amen in place of `yours respectfully, shouldn t I?--the way the ministers do. I d forgotten it, but I felt a prayer should be finished off in some way, so I put in the other. Do you suppose it will make any difference?" "I--I don t suppose it will," said Marilla. "Go to sleep now like a good child. Good night." "I can only say good night tonight with a clear conscience," said Anne, cuddling luxuriously down among her pillows. Marilla retreated to the kitchen, set the candle firmly on the table, and glared at Matthew. "Matthew Cuthbert, it s about time somebody adopted that child and taught her something. She s next door to a perfect heathen. Will you believe that she never said a prayer in her life till tonight? I ll send her to the manse tomorrow and borrow the Peep of the Day series, that s what I ll do. And she shall go to Sunday-school just as soon as I can get some suitable clothes made for her. I foresee that I shall have my hands full. Well, well, we can t get through this world without our share of trouble. I ve had a pretty easy life of it so far, but my time has come at last and I suppose I ll just have to make the best of it." CHAPTER VI UP CHAPTER VIII 今日 - | 昨日 - | Total - since 05 June 2007 last update 2007-06-05 01 30 24 (Tue)