Practical Statecharts in C/C++: Quantum Programming for Embedded Systems'Downright revolutionary... the title is a major understatement... 'Quantum Programming' may ultimately change the way embedded software is designed.' -- Michael Barr, Editor-in-Chief, Embedded Systems Programming magazine (Click here |
Contents
Statecharts | 1 |
Quantum Framework | 187 |
Appendix A C+ ObjectOriented Programming in C | 335 |
Appendix B Guide to Notation | 353 |
Appendix C CDROM | 359 |
| 365 | |
| 371 | |
Whats on the CD? | 395 |
Other editions - View all
Practical Statecharts in C/C++: Quantum Programming for Embedded Systems Miro Samek Limited preview - 2002 |
Practical Statecharts in C/C++: Quantum Programming for Embedded Systems Miro Samek No preview available - 2002 |
Common terms and phrases
abstract active object-based active objects allocated attribute base class behavioral inheritance meta-pattern block CD-ROM Chapter components computing concrete constructor context critical section define design pattern desktop diagram embedded real-time embedded systems entry actions event instances event pools event queue example exception handling execution exit actions Figure framework handle handler methods header file hierarchy implementation initial transition interface invoked Listing macro malloc mechanism memory Microsoft Windows mutex mySource myState nesting operand2 orthogonal regions philosopher pointer pointer-to-member function polymorphism priority priority inversion problem programming pseudostate Q_ENTRY_SIG Q_TRAN QEvent const QF application QHsm class QSTATE Quantum Calculator reactive real-time systems reuse RTC step RTKernel-32 RTOS semaphore signal state-handler statechart static subclass subscriber substate superclass superstate switch e->sig switch statement target techniques thread timeout timer tion tran triggers typically UML specification unsigned virtual virtual functions void VTABLE