本文整理汇总了Golang中github.com/wiless/gocomm/chipset.ModuleInfo.Function方法的典型用法代码示例。如果您正苦于以下问题:Golang ModuleInfo.Function方法的具体用法?Golang ModuleInfo.Function怎么用?Golang ModuleInfo.Function使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类github.com/wiless/gocomm/chipset.ModuleInfo
的用法示例。
在下文中一共展示了ModuleInfo.Function方法的4个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: InitModules
func (m *OFDM) InitModules() {
var totalModules int = 2
/// AUTO CODE
/// something try begins
var minfo chipset.ModuleInfo
m.Modules = make(map[string]chipset.ModuleInfo, totalModules)
m.ModuleNames = make(map[int]string, totalModules)
strlist := [2]string{"txmodule", "rxmodule"}
for cnt := 0; cnt < len(strlist); cnt++ {
m.ModuleNames[cnt] = strlist[cnt]
}
var temp, otemp []int
minfo.Name = "txmodule"
minfo.Id = 0
minfo.Desc = ""
temp = append(temp, m.PinByName("inputPin0").Id)
otemp = append(otemp, m.PinByName("outputPin0").Id)
minfo.InPins = temp
minfo.OutPins = otemp
method := reflect.ValueOf(m).MethodByName("Ifft")
minfo.Function = method
minfo.FunctionName = "Ifft"
m.Modules["txmodule"] = minfo
minfo.Name = "rxmodule"
minfo.Id = 1
minfo.Desc = ""
temp = append(temp, m.PinByName("inputPin1").Id)
otemp = append(otemp, m.PinByName("outputPin1").Id)
minfo.InPins = temp
minfo.OutPins = otemp
method = reflect.ValueOf(m).MethodByName("Fft")
minfo.Function = method
minfo.FunctionName = "Fft"
m.Modules["rxmodule"] = minfo
/// AUTO CODE
m.isInitialized = true
}
示例2: InitModules
func (m *BitSource) InitModules() {
var totalModules int = m.ModulesCount()
m.Modules = make(map[string]chipset.ModuleInfo, totalModules)
m.ModuleNames = make(map[int]string, totalModules)
// b := [...]string{"Penn", "Teller"}
strlist := [...]string{"genbit"}
for i := 0; i < totalModules; i++ {
m.ModuleNames[i] = strlist[i]
}
for i := 0; i < totalModules; i++ {
var minfo chipset.ModuleInfo
minfo.Name = m.ModuleNames[i]
switch minfo.Name {
case "genbit":
minfo.Id = 0
minfo.Desc = "Generates Uniformly distributed bits 0 and 1 at output pin 'bitOut' "
minfo.InPins = []int{}
minfo.OutPins = []int{m.PinByName("bitOut").Id}
method := reflect.ValueOf(m).MethodByName("GenBit")
minfo.Function = method
// case "demodulate":
// minfo.InPins = []int{1}
// minfo.OutPins = []int{1}
}
m.Modules[minfo.Name] = minfo
}
}
示例3: InitModules
func (m *Modem) InitModules() {
var totalModules int = m.ModulesCount()
m.Modules = make(map[string]chipset.ModuleInfo, totalModules)
m.ModuleNames = make(map[int]string, totalModules)
// b := [...]string{"Penn", "Teller"}
strlist := [...]string{"modulate", "demodulate"}
for i := 0; i < totalModules; i++ {
m.ModuleNames[i] = strlist[i]
}
for i := 0; i < totalModules; i++ {
var minfo chipset.ModuleInfo
minfo.Name = m.ModuleNames[i]
switch minfo.Name {
case "modulate":
minfo.Desc = "This modulate modulates the input bits from Inpin 'bitIn' and writes to 'symbolOut' "
minfo.Id = 0
minfo.InPins = []int{m.PinByName("bitIn").Id}
minfo.OutPins = []int{m.PinByName("symbolOut").Id}
method := reflect.ValueOf(m).MethodByName("SayModulate")
minfo.Function = method
minfo.FunctionName = "SayModulate"
case "demodulate":
minfo.Desc = "This modulate DeModulates the input Symbols from Inpin 'symbolIn' and writes to 'bitOut' "
minfo.Id = 1
minfo.InPins = []int{m.PinByName("symbolIn").Id}
minfo.OutPins = []int{m.PinByName("bitOut").Id}
method := reflect.ValueOf(m).MethodByName("SayDemodulate")
minfo.FunctionName = "SayDemodulate"
minfo.Function = method
}
m.Modules[minfo.Name] = minfo
}
}
示例4: InitModules
func (m *ChannelEmulator) InitModules() {
var totalModules int = m.ModulesCount()
m.Modules = make(map[string]chipset.ModuleInfo, totalModules)
m.ModuleNames = make(map[int]string, totalModules)
// b := [...]string{"Penn", "Teller"}
strlist := [...]string{"fadingChannel", "awgn"}
for i := 0; i < totalModules; i++ {
m.ModuleNames[i] = strlist[i]
}
for i := 0; i < totalModules; i++ {
var minfo chipset.ModuleInfo
minfo.Name = m.ModuleNames[i]
switch minfo.Name {
case "fadingChannel":
minfo.Id = 0
minfo.Desc = "This emulates a 1-tap fading (multiplicative) channel"
minfo.InPins = []int{m.PinByName("symbolIn").Id}
minfo.OutPins = []int{m.PinByName("symbolOut").Id}
method := reflect.ValueOf(m).MethodByName("FadingChannel")
minfo.Function = method
case "awgn":
minfo.Id = 1
minfo.Desc = "This emulates additive white noise to the input signal "
minfo.InPins = []int{m.PinByName("symbolIn").Id}
minfo.OutPins = []int{m.PinByName("symbolOut").Id}
method := reflect.ValueOf(m).MethodByName("AWGNChannel")
minfo.Function = method
}
m.Modules[minfo.Name] = minfo
}
}