nkjnm
Dependencies: MAX44000 nexpaq_mdk
Fork of LED_Demo by
mbd_os/libraries/rpc/RpcClasses.h
- Committer:
- nexpaq
- Date:
- 2016-09-17
- Revision:
- 1:55a6170b404f
File content as of revision 1:55a6170b404f:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MBED_CLASSES_H #define MBED_CLASSES_H #include "rpc.h" namespace mbed { class RpcDigitalOut : public RPC { public: RpcDigitalOut(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} void write(int a0) {o.write(a0);} int read(void) {return o.read();} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"write", rpc_method_caller<RpcDigitalOut, int, &RpcDigitalOut::write>}, {"read", rpc_method_caller<int, RpcDigitalOut, &RpcDigitalOut::read>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcDigitalOut, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"DigitalOut", funcs, NULL}; return &c; } private: DigitalOut o; }; class RpcDigitalIn : public RPC { public: RpcDigitalIn(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} int read(void) {return o.read();} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"read", rpc_method_caller<int, RpcDigitalIn, &RpcDigitalIn::read>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcDigitalIn, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"DigitalIn", funcs, NULL}; return &c; } private: DigitalIn o; }; class RpcDigitalInOut : public RPC { public: RpcDigitalInOut(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} int read(void) {return o.read();} void write(int a0) {o.write(a0);} void input(void) {o.input();} void output(void) {o.output();} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"read", rpc_method_caller<int, RpcDigitalInOut, &RpcDigitalInOut::read>}, {"write", rpc_method_caller<RpcDigitalInOut, int, &RpcDigitalInOut::write>}, {"input", rpc_method_caller<RpcDigitalInOut, &RpcDigitalInOut::input>}, {"output", rpc_method_caller<RpcDigitalInOut, &RpcDigitalInOut::output>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcDigitalInOut, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"DigitalInOut", funcs, NULL}; return &c; } private: DigitalInOut o; }; #if DEVICE_ANALOGIN class RpcAnalogIn : public RPC { public: RpcAnalogIn(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} float read(void) {return o.read();} unsigned short read_u16(void) {return o.read_u16();} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"read", rpc_method_caller<float, RpcAnalogIn, &RpcAnalogIn::read>}, {"read_u16", rpc_method_caller<unsigned short, RpcAnalogIn, &RpcAnalogIn::read_u16>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcAnalogIn, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"AnalogIn", funcs, NULL}; return &c; } private: AnalogIn o; }; #endif #if DEVICE_ANALOGOUT class RpcAnalogOut : public RPC { public: RpcAnalogOut(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} float read(void) {return o.read();} void write(float a0) {o.write(a0);} void write_u16(unsigned short a0) {o.write_u16(a0);} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"read", rpc_method_caller<float, RpcAnalogOut, &RpcAnalogOut::read>}, {"write", rpc_method_caller<RpcAnalogOut, float, &RpcAnalogOut::write>}, {"write_u16", rpc_method_caller<RpcAnalogOut, unsigned short, &RpcAnalogOut::write_u16>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcAnalogOut, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"AnalogOut", funcs, NULL}; return &c; } private: AnalogOut o; }; #endif #if DEVICE_PWMOUT class RpcPwmOut : public RPC { public: RpcPwmOut(PinName a0, const char *name=NULL) : RPC(name), o(a0) {} float read(void) {return o.read();} void write(float a0) {o.write(a0);} void period(float a0) {o.period(a0);} void period_ms(int a0) {o.period_ms(a0);} void pulsewidth(float a0) {o.pulsewidth(a0);} void pulsewidth_ms(int a0) {o.pulsewidth_ms(a0);} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"read", rpc_method_caller<float, RpcPwmOut, &RpcPwmOut::read>}, {"write", rpc_method_caller<RpcPwmOut, float, &RpcPwmOut::write>}, {"period", rpc_method_caller<RpcPwmOut, float, &RpcPwmOut::period>}, {"period_ms", rpc_method_caller<RpcPwmOut, int, &RpcPwmOut::period_ms>}, {"pulsewidth", rpc_method_caller<RpcPwmOut, float, &RpcPwmOut::pulsewidth>}, {"pulsewidth_ms", rpc_method_caller<RpcPwmOut, int, &RpcPwmOut::pulsewidth_ms>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, const char*, &RPC::construct<RpcPwmOut, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"PwmOut", funcs, NULL}; return &c; } private: PwmOut o; }; #endif #if DEVICE_SPI class RpcSPI : public RPC { public: RpcSPI(PinName a0, PinName a1, PinName a2, const char *name=NULL) : RPC(name), o(a0, a1, a2) {} void format(int a0, int a1) {o.format(a0, a1);} void frequency(int a0) {o.frequency(a0);} int write(int a0) {return o.write(a0);} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"format", rpc_method_caller<RpcSPI, int, int, &RpcSPI::format>}, {"frequency", rpc_method_caller<RpcSPI, int, &RpcSPI::frequency>}, {"write", rpc_method_caller<int, RpcSPI, int, &RpcSPI::write>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, PinName, PinName, const char*, &RPC::construct<RpcSPI, PinName, PinName, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"SPI", funcs, NULL}; return &c; } private: SPI o; }; #endif #if DEVICE_SERIAL class RpcSerial : public RPC { public: RpcSerial(PinName a0, PinName a1, const char *name=NULL) : RPC(name), o(a0, a1) {} void baud(int a0) {o.baud(a0);} int readable(void) {return o.readable();} int writeable(void) {return o.writeable();} int putc(int a0) {return o.putc(a0);} int getc(void) {return o.getc();} int puts(const char * a0) {return o.puts(a0);} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"baud", rpc_method_caller<RpcSerial, int, &RpcSerial::baud>}, {"readable", rpc_method_caller<int, RpcSerial, &RpcSerial::readable>}, {"writeable", rpc_method_caller<int, RpcSerial, &RpcSerial::writeable>}, {"putc", rpc_method_caller<int, RpcSerial, int, &RpcSerial::putc>}, {"getc", rpc_method_caller<int, RpcSerial, &RpcSerial::getc>}, {"puts", rpc_method_caller<int, RpcSerial, const char *, &RpcSerial::puts>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, PinName, PinName, const char*, &RPC::construct<RpcSerial, PinName, PinName, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"Serial", funcs, NULL}; return &c; } private: Serial o; }; #endif class RpcTimer : public RPC { public: RpcTimer(const char *name=NULL) : RPC(name), o() {} void start(void) {o.start();} void stop(void) {o.stop();} void reset(void) {o.reset();} float read(void) {return o.read();} int read_ms(void) {return o.read_ms();} int read_us(void) {return o.read_us();} virtual const struct rpc_method *get_rpc_methods() { static const rpc_method rpc_methods[] = { {"start", rpc_method_caller<RpcTimer, &RpcTimer::start>}, {"stop", rpc_method_caller<RpcTimer, &RpcTimer::stop>}, {"reset", rpc_method_caller<RpcTimer, &RpcTimer::reset>}, {"read", rpc_method_caller<float, RpcTimer, &RpcTimer::read>}, {"read_ms", rpc_method_caller<int, RpcTimer, &RpcTimer::read_ms>}, {"read_us", rpc_method_caller<int, RpcTimer, &RpcTimer::read_us>}, RPC_METHOD_SUPER(RPC) }; return rpc_methods; } static struct rpc_class *get_rpc_class() { static const rpc_function funcs[] = { {"new", rpc_function_caller<const char*, const char*, &RPC::construct<RpcTimer, const char*> >}, RPC_METHOD_END }; static rpc_class c = {"Timer", funcs, NULL}; return &c; } private: Timer o; }; } #endif