Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: MCIWnd is a window class for controlling multimedia devices. A library of functions, messages, and macros associated with MCIWnd provides a simple method to add multimedia playback or recording capabilities to your applications.
The MCIWnd Window class is very easy to use. By identifying a simple HWND member variable and assigning it to MCI window using a single function, you can create a control that plays any device that uses the media control interface (MCI) and gain support of any installed codec on your machine. These devices include Audio CDs, WAV Audios, MIDIs, and video devices with any supported codec.
Automating playback is also quick and easy. Using only one function and two macros, an application can create an MCIWnd window with the appropriate media device, play the device, and close both the device and the window when the content has finished playing.
Note that term device refers to any playable media from file stored to any playable medium.-MCIWnd is a window class for controlling mu ltimedia devices. A library of functions, messages, and macros associated with MCIWnd provides a si mple method to add multimedia playback or recor ding capabilities to your applications. The MC IWnd Window class is very easy to use. By identif ying a simple HWND member variable and assignin g it to MCI window using a single function, you can create a control device that plays any th at uses the media control interface (MCI) and ga in support of any codec installed on your machin e. These devices include Audio CDs, WAV Audios, MIDIs. and video devices with any supported codec. Aut omating playback is also quick and easy. Using o nly one function and two macros, an application can create an MCIWnd window with the appropriate media device, play the Platform: |
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Author:chenfengfy |
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Description: 这个试圆周率的Machin算法,在这里共享,希望对大家有所帮助,看看这个算法会有启发!-test the ratio of the circumference Machin algorithm, in sharing, we want to help, look at this algorithm will be inspired! Platform: |
Size: 8281 |
Author:www |
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Description: Write Great Code 的第一卷 Understanding the Machine
第一卷用语言无关的方式告诉程序员写出很好的代码所需要的知识,而不需要了解具体的汇编语言-Write Great Code Volume I of the Ma Understanding chine vol language unrelated to tell the programmers to write good code required knowledge, not need to know the specific assembly language Platform: |
Size: 8642206 |
Author:jz |
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Description: 复化simponson求积数值分析算法之复化simpson求积算法,详细情形请见源程序,,Visual C++
my赛德尔迭代法.rar - 在VC++实现的赛德尔迭代法,有每次迭代的结果,,Visual C++
-complex plot of simponson for numerical analysis algorithm from a plot of simpson seeking algorithm, details, see the source,, Visual C my Seidel iterative method. rar-in the VC Seidel iterative method, with each iteration of the results, Visual C Platform: |
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Author:李前 |
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Description: Resolves DNS Host Name to corresponding IP Address. It works both with URL as well as Machine Name in Network.
-Resolves DNS Host Name to corresponding IP Address. It works both with the URL as well as Machin Name in e Network. Platform: |
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Author:微环境 |
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Description: 仿真1:首先把网络温度参数T固定在100,按工作规则共进行1000次状态更新,把这1000次状态转移中网络中的各个状态出现的次数Si(i=1,2,…,16)记录下来 按下式计算各个状态出现的实际频率: Pi=Si/∑i=1,NSi=Si/M 同时按照Bo1tzmann分布计算网络各个状态出现概率的理论值: Q(Ei)=(1/Z)exp(-Ei/T) 仿真2:实施降温方案,重新计算 采用快速降温方案:T(t)= T0/(1+t) T从1000降到0.01,按工作规则更新网络状态 当T=0.01时结束降温,再让T保持在0.01进行1000次状态转移,比较两种概率-a simulation : First of all network parameters temperature T fixed at 100 and, according to the rules for a total of 1000 to update the state, this state of the 1000 network transfer of all states for the number of Si (i = 1, 2, ..., 16) all recorded determined by the formula state-of the actual frequency : Pi = Si / i = 1, NSi = Si / M in accordance with Bo1tzmann distributed computing network of states all probability the theoretical value : Q (Ei) = (1 / Z) exp (- Ei / T) Simulation 2 : implementation of cooling, re-using rapid cooling programs : T (t) = T0 / (1 t) T dropped to 0.01 from 1000 and, according to the rules updated network state when T = 0.01 at the end of cooling, let T at 0.01 for the 1000 state transfer, the probability of two more Platform: |
Size: 4901 |
Author:韵子 |
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Description: 仿真1:首先把网络温度参数T固定在100,按工作规则共进行1000次状态更新,把这1000次状态转移中网络中的各个状态出现的次数Si(i=1,2,…,16)记录下来 按下式计算各个状态出现的实际频率: Pi=Si/∑i=1,NSi=Si/M 同时按照Bo1tzmann分布计算网络各个状态出现概率的理论值: Q(Ei)=(1/Z)exp(-Ei/T) 仿真2:实施降温方案,重新计算 采用快速降温方案:T(t)= T0/(1+t) T从1000降到0.01,按工作规则更新网络状态 当T=0.01时结束降温,再让T保持在0.01进行1000次状态转移,比较两种概率-a simulation : First of all network parameters temperature T fixed at 100 and, according to the rules for a total of 1000 to update the state, this state of the 1000 network transfer of all states for the number of Si (i = 1, 2, ..., 16) all recorded determined by the formula state-of the actual frequency : Pi = Si/i = 1, NSi = Si/M in accordance with Bo1tzmann distributed computing network of states all probability the theoretical value : Q (Ei) = (1/Z) exp (- Ei/T) Simulation 2 : implementation of cooling, re-using rapid cooling programs : T (t) = T0/(1 t) T dropped to 0.01 from 1000 and, according to the rules updated network state when T = 0.01 at the end of cooling, let T at 0.01 for the 1000 state transfer, the probability of two more Platform: |
Size: 5120 |
Author:韵子 |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
Size: 1718272 |
Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: A Java virtual machine instruction consists of an opcode specifying the operation to be performed, followed by zero or more operands embodying values to be operated upon. This chapter gives details about the format of each Java virtual machine instruction and the operation it performs. -A Java virtual machine instruction consis ts of an opcode specifying the operation to be pe rformed. followed by zero or more operands Embodying val UES to be operated upon. This chapter gives Degussa ils about the format of each Java virtual machin e instruction and the operation it performs. Platform: |
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Author:wkj |
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Description: MCIWnd is a window class for controlling multimedia devices. A library of functions, messages, and macros associated with MCIWnd provides a simple method to add multimedia playback or recording capabilities to your applications.
The MCIWnd Window class is very easy to use. By identifying a simple HWND member variable and assigning it to MCI window using a single function, you can create a control that plays any device that uses the media control interface (MCI) and gain support of any installed codec on your machine. These devices include Audio CDs, WAV Audios, MIDIs, and video devices with any supported codec.
Automating playback is also quick and easy. Using only one function and two macros, an application can create an MCIWnd window with the appropriate media device, play the device, and close both the device and the window when the content has finished playing.
Note that term device refers to any playable media from file stored to any playable medium.-MCIWnd is a window class for controlling mu ltimedia devices. A library of functions, messages, and macros associated with MCIWnd provides a si mple method to add multimedia playback or recor ding capabilities to your applications. The MC IWnd Window class is very easy to use. By identif ying a simple HWND member variable and assignin g it to MCI window using a single function, you can create a control device that plays any th at uses the media control interface (MCI) and ga in support of any codec installed on your machin e. These devices include Audio CDs, WAV Audios, MIDIs. and video devices with any supported codec. Aut omating playback is also quick and easy. Using o nly one function and two macros, an application can create an MCIWnd window with the appropriate media device, play the Platform: |
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Author:chenfengfy |
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