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// A stack class for characters. using System; class Stack { // These members are private. char[] stck; // holds the stack int tos; // index of the top of the stack // Construct an empty Stack given its size. public Stack(int size) { stck = new char[size]; // allocate memory for stack tos = 0; } // Push characters onto the stack. public void Push(char ch) { if(tos==stck.Length) { Console.WriteLine(" -- Stack is full."); return; } stck[tos] = ch; tos++; } // Pop a character from the stack.
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class FixedCode { // Mark Main as unsafe. unsafe static void Main() { Test o = new Test(19); fixed (int* p = &o.num) { // use fixed to put address of o.num into p Console.WriteLine("Initial value of o.num is " + *p); *p = 10; // assign 10 to count via p Console.WriteLine("New value of o.num is " + *p); } } }
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The output from the program is shown here:
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UNION Query Show all faculty and students. Only s h o w the c o m m o n columns in the result. SELECT FacSSN AS SSN, FacFirstName AS FirstName, FacLastName AS LastName, FacCity AS City, FacState AS State FROM Faculty UNION SELECT StdSSN AS SSN, StdFirstName AS FirstName, StdLastName AS LastName, StdCity AS City, StdState AS State FROM Student SSN 098765432 123456789 124567890 234567890 345678901 456789012 543210987 567890123 654321098 678901234 765432109 789012345 876543210 890123456 901234567 987654321 FirstName LEONARD HOMER BOB CANDY WALLY JOE VICTORIA MARIAH LEONARD TESS NICKI ROBERTO CRISTOPHER LUKE WILLIAM JULIA LastName VINCE WELLS NORBERT KENDALL KENDALL ESTRADA EMMANUEL DODGE FIBON DODGE MACON MORALES COLAN BRAZZI PILGRIM MILLS City SEATTLE SEATTLE BOTHELL TACOMA SEATTLE SEATTLE BOTHELL SEATTLE SEATTLE REDMOND BELLEVUE SEATTLE SEATTLE SEATTLE BOTHELL SEATTLE State WA WA WA WA WA WA WA WA WA WA WA WA WA WA WA WA
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When using failover, certain restrictions apply. For example, the following addressing is currently unsupported on appliances participating in failover: DHCP client PPPoE client IPv6 addressing
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7. Post-tensioning of trusses: Existing post-tensioning rods serve an important structural function of maintaining the stability of deep trusses, both for near-term and long term. They help to increase the redundancy of fracture critical members and their strength. However, rods may need replacement due to elongation and sagging with higher tensile strength steel cables. 8. Staging: For work on oor beams and main trusses, the bridge will be closed for a restricted duration, after public outreach. 9. Accelerated construction: As an alternate, use of prefabricated units (former Inverset System) will be considered to minimize construction duration. With a precast deck, there may be dif culties in relocating and re-installing utility cables under the deck and attaching them to new girders since the deck slab needs to be composite with the girders. 10. Gusset plates and connections: All riveted and bolted connections will be checked for strength and replaced if necessary. Gusset plates showing loss of section will be replaced. Cracked welds for ange cover plates due to reversal of stress and fatigue need attention. Any cracked gusset plates for truss compression members may lead to failure of the bridge and need to be replaced. Failure of the Minneapolis Bridge is a case in point. 11. Sidewalks, if present, will have bicycle/pedestrian compatibility.
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In this example, the default is the AnyConnect client (svc), where you can see the user has 9 more seconds (see Figure 20-2) to choose before the AnyConnect client is automatically downloaded.
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This program walks through the heap, printing the size of each allocated block:
6. By default, Web Intelligence uses a thin line on the bottom border of any free-standing cells. You can remove the cell borders by selecting both cells in the Report window (use CTRL-click to select both footer cells), going to the Properties tab, selecting Appearance > Text Format > Borders, and removing the bottom border. Figure 21-14 shows a formatted report with the default footer cells modified to include some additional text such as Last Refresh Date and Page N of N. You can modify these cells as you would modify any formula. Ensure the Formula toolbar is displayed. Then select the footer cell and modify the formula.
The C# Language
Central office/ Data center Ethernet MSPP 3 IP services network Ethernet services network
REPAIR AND RETROFIT METHODS
Modulation
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Because so much has changed with the underlying architecture, migrating from BusinessObjects version 5 or 6 to XI demands careful planning. It is not an upgrade that involves a simple copy from one version to another. XI Release 2 contains two tools that will help with migration: an Import Wizard and a Report Conversion tool. The Import Wizard allows you to Migrate users and content from one version of the platform to XI Release 2. Copy users and content from a development environment to a production environment. Consolidate content from departmental BusinessObjects and Crystal implementations to an enterprise implementation. The Report Conversion tool allows you to convert full-client reports or Desktop Intelligence reports to Web Intelligence documents. Both of these tools are discussed more thoroughly later in this chapter. Your migration project should have four broad phases: planning, test, implementation, and ramp-up. The length of each phase will vary significantly, depending on the size and complexity of your existing deployment and your consolidation approach. As you plan your project, use the checklist in Table 5-1. An electronic copy of this checklist may be available on the Osborne web site and BOB. Each of the items in Table 5-1 is described more fully in the following sections.
System.Type is at the core of the reflection subsystem because it encapsulates a type. It contains many properties and methods that you will use to obtain information about a type at runtime. Type is derived from an abstract class called System.Reflection.MemberInfo. MemberInfo defines the following read-only properties:
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Early Renditions for Fast Ethernet and Gigabit Ethernet The first 10 Mbps fiber-optic Ethernet interface was standardized in 1996 via the ISO/IEC 10 Base-F specification. This interface was defined over two MMF spans and supported distances up to 2 km (50 or 62.5 m core). At about the same time, the IEEE introduced the first Fast Ethernet 100 Base-F standard for MMF by adapting proven transceiver and encoding schemes from Fiber Distributed Data Interface (FDDI) technology. Nevertheless, no formal standard has been developed for Fast Ethernet over SMF, although many vendors have proprietary solutions on the market (1310/1550 nm, 10 100 km reach). Ethernet s entry into the gigabit-fiber realm came in 1998 with the approval of the IEEE 802.3z 1000 Base-F standard. This interface preserved the minimum/maximum Ethernet frame sizes and used 8b/10b encoding. Again, the interface leveraged transceiver design and 8b/10b encoding formats from existing 1.0 Gbps Fibre Channel technology. The only difference was a slightly higher clocking rate to support full gigabit data transfers (i.e., 1.25 Gbps versus 1.06 Gbps). Specifically, two interface types were defined. Namely, the 1000 Base-SX standard was targeted for intra-building/data-center MMF cabling (550 m reach), whereas the 1000 Base-LX standard was targeted for larger campus networks (MMF and 1310 nm SMF) with a range of 10 km (see Table 8.3). These were also the first Ethernet interfaces to use laser optics with associated low-loss frequencies of 850 nm (MMF) and 1310 nm (SMF). In addition, mode condition path (MCP) solutions were developed to overcome modal dispersion effects over MMF, yielding improved reach up to 2 3 km. Nevertheless, all official Gigabit Ethernet fiber interfaces were restricted to campus/enterprise applications such as aggregating Fast Ethernet ports. To resolve this limitation, many vendors have developed proprietary SMF interfaces with extended reach up to 150 km. 10 Gigabit Ethernet Work on the 10 Gbps Ethernet interface started in late 1990s and was driven by improvements in high-speed electronics and lasers. A major goal of this effort was to scale to ten times the aggregation of Gigabit Ethernet for a small multiple of its price (two to three times). Another aim was to project Ethernet well out of the LAN as a genuine carrier-grade solution, i.e., LAN-MAN-WAN convergence. The first 10 Gigabit Ethernet specifications (IEEE 802.3ae) emerged in 2002 and defined full-duplex operation without carrier-sensing multiple-access with collision detection (CSMA/CD) operation. However, Ethernet frame formats were maintained to ensure interoperability and protect existing investments. Given many potential applications, 10 Gigabit Ethernet interfaces support a wide range of distances and fiber types, as detailed in Table 8.4. In particular, the standards define two physical interface layers, one for LAN and the other for MAN/WAN. The former supports full 10 Gbps bit rates (10.3 Gbps clock rate) and runs over SMF (1300 nm) or DWDM (1550 nm). Meanwhile, the latter defines a new WAN interface sublayer (WIS), i.e., WAN PHY, which is based on a simplified concatenated SONET STS-192c/ SDH-4-64c frame with a 9.58464 Gbps data rate (10G-Base-SW/LW/EW) [6]. This facilitates seamless interconnection across extensive SONET/SDH infrastructures such as add-drop multiplexer (ADM) rings, DCS meshes, DWDM networks, regenerators, and so on. In order to reduce cost, however, full SONET functionality is not supported in
Another significant EoS technology trend comprises enhancements to the EoS mapping protocols. Implementations of GFP, VCAT, and LCAS continue to grow in quantity, quality, and interoperability. This technology triumvirate forms a solid technology foundation for the delivery of Carrier Ethernet services over SONET networks. However, beyond GFP/VCAT/LCAS are additional protocols that augment EoS to improve its ability to deliver Ethernet services in some cases. Resilient packet ring (RPR) technology, based on the IEEE 802.17 standard [14], can improve SONET s ability to support E-LAN services in some scenarios. RPR provides a MAC layer on top of SONET that enables an RPR/SONET ring to act as a shared LAN (with built-in multipoint capabilities). This allows Ethernet bridging functions (required for E-LAN services) in MSPPs to view the SONET network not as a collection of point-to-point links, but as a shared LAN, which can improve significantly the efficiency of MSPP bridging implementations.6 For this reason, some carriers have deployed MSPPs with Ethernet/RPR/SONET for dedicated ring applications. However, in North America the application of RPR has not gone far beyond this, due, in part, to some RPR limitations:
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