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Diff: MODSERIAL/example1.cpp
- Revision:
- 0:bdcfca60d8a6
diff -r 000000000000 -r bdcfca60d8a6 MODSERIAL/example1.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/MODSERIAL/example1.cpp Fri Jun 01 20:46:28 2012 +0000 @@ -0,0 +1,120 @@ +#ifdef COMPILE_EXAMPLE1_CODE_MODSERIAL + +/* + * To run this test program, link p9 to p10 so the Serial loops + * back and receives characters it sends. + */ + +#include "mbed.h" +#include "MODSERIAL.h" + +DigitalOut led1(LED1); +DigitalOut led2(LED2); +DigitalOut led3(LED3); +DigitalOut led4(LED4); + +MODSERIAL pc(USBTX, USBRX); + +/* + * As experiement, you can define MODSERIAL as show here and see what + * effects it has on the LEDs. + * + * MODSERIAL uart(TX_PIN, RX_PIN, 512); + * With this, the 512 characters sent can straight into the buffer + * vary quickly. This means LED1 is only on briefly as the TX buffer + * fills. + * + * MODSERIAL uart(TX_PIN, RX_PIN, 32); + * With this, the buffer is smaller than the default 256 bytes and + * therefore LED1 stays on much longer while the system waits for + * room in the TX buffer. + */ +MODSERIAL uart(TX_PIN, RX_PIN); + +// This function is called when a character goes from the TX buffer +// to the Uart THR FIFO register. +void txCallback(MODSERIAL_IRQ_INFO *q) { + led2 = !led2; +} + +// This function is called when TX buffer goes empty +void txEmpty(MODSERIAL_IRQ_INFO *q) { + led2 = 0; + pc.puts(" Done. "); +} + +// This function is called when a character goes into the RX buffer. +void rxCallback(MODSERIAL_IRQ_INFO *q) { + led3 = !led3; + pc.putc(uart.getc()); +} + +int main() { + int c = 'A'; + + // Ensure the baud rate for the PC "USB" serial is much + // higher than "uart" baud rate below. + pc.baud(PC_BAUD); + + // Use a deliberatly slow baud to fill up the TX buffer + uart.baud(1200); + + uart.attach(&txCallback, MODSERIAL::TxIrq); + uart.attach(&rxCallback, MODSERIAL::RxIrq); + uart.attach(&txEmpty, MODSERIAL::TxEmpty); + + // Loop sending characters. We send 512 + // which is twice the default TX/RX buffer size. + + led1 = 1; // Show start of sending with LED1. + + for (int loop = 0; loop < 512; loop++) { + uart.printf("%c", c); + c++; + if (c > 'Z') c = 'A'; + } + + led1 = 0; // Show the end of sending by switching off LED1. + + // End program. Flash LED4. Notice how LED 2 and 3 continue + // to flash for a short period while the interrupt system + // continues to send the characters left in the TX buffer. + + while(1) { + led4 = !led4; + wait(0.25); + } +} + +/* + * Notes. Here is the sort of output you can expect on your PC/Mac/Linux host + * machine that is connected to the "pc" USB serial port. + * + * ABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUV + * WXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQR + * STUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMN + * OPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJ + * KLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEF + * GHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZAB + * CDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQ Done. R + * + * Of interest is that last "R" character after the system has said "Done." + * This comes from the fact that the TxEmpty callback is made when the TX buffer + * becomes empty. MODSERIAL makes use of the fact that the Uarts built into the + * LPC17xx device use a 16 byte FIFO on both RX and TX channels. This means that + * when the TxEmpty callback is made, the TX buffer is empty, but that just means + * the "last few characters" were written to the TX FIFO. So although the TX + * buffer has gone empty, the Uart's transmit system is still sending any remaining + * characters from it's TX FIFO. If you want to be truely sure all the characters + * you have sent have left the Mbed then call txIsBusy(); This function will + * return true if characters are still being sent. If it returns false after + * the Tx buffer is empty then all your characters have been sent. + * + * In a similar way, when characters are received into the RX FIFO, the entire + * FIFO contents is moved to the RX buffer, assuming there is room left in the + * RX buffer. If there is not, any remaining characters are left in the RX FIFO + * and will be moved to the RX buffer on the next interrupt or when the running + * program removes a character(s) from the RX buffer with the getc() method. + */ + +#endif