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author | Marti Bolivar <mbolivar@leaflabs.com> | 2011-05-04 17:24:47 -0400 |
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committer | Marti Bolivar <mbolivar@leaflabs.com> | 2011-05-04 17:24:47 -0400 |
commit | f76e9746041b91150bf9c8997c47178a8100f5ae (patch) | |
tree | 225018683850b7a051b593232426622a65031ef8 | |
parent | f35c9f71385ba0629e1e3744d08da2cf442b3e9d (diff) | |
download | librambutan-f76e9746041b91150bf9c8997c47178a8100f5ae.tar.gz librambutan-f76e9746041b91150bf9c8997c47178a8100f5ae.zip |
examples/test-spi-roundtrip.cpp now uses SerialUSB instead of Serial2.
-rw-r--r-- | examples/test-spi-roundtrip.cpp | 89 |
1 files changed, 43 insertions, 46 deletions
diff --git a/examples/test-spi-roundtrip.cpp b/examples/test-spi-roundtrip.cpp index 257303b..8fe97b9 100644 --- a/examples/test-spi-roundtrip.cpp +++ b/examples/test-spi-roundtrip.cpp @@ -4,7 +4,7 @@ * Bob is nowhere to be found, so Alice decides to talk to herself. * * Instructions: Connect SPI2 (Alice) to herself (i.e., MISO to MOSI). - * Connect to Alice via Serial2 at 115200 baud. Press any key to start. + * Connect to Alice via SerialUSB. Press any key to start. * * Alice will talk to herself for a little while. The sketch will * report if Alice can't hear anything she says. She'll then start @@ -37,13 +37,13 @@ const SPIFrequency spi_freqs[] = { uint8 test_buf[TEST_BUF_SIZE] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; void bad_assert(const char* file, int line, const char* exp) { - Serial2.println(); - Serial2.print("ERROR: FAILED ASSERT("); - Serial2.print(exp); - Serial2.print("): "); - Serial2.print(file); - Serial2.print(": "); - Serial2.println(line); + SerialUSB.println(); + SerialUSB.print("ERROR: FAILED ASSERT("); + SerialUSB.print(exp); + SerialUSB.print("): "); + SerialUSB.print(file); + SerialUSB.print(": "); + SerialUSB.println(line); throb(); } @@ -59,26 +59,23 @@ void soliloquies(uint32 bitOrder); void setup() { pinMode(BOARD_LED_PIN, OUTPUT); - Serial2.begin(115200); - Serial2.println(); - Serial2.print("** SPI test ready. Press any key to start."); - while (!Serial2.available()) + while (!SerialUSB.available()) ; - Serial2.read(); + SerialUSB.read(); } void loop() { - Serial2.println("** Having a conversation, MSB first"); + SerialUSB.println("** Having a conversation, MSB first"); haveConversation(MSBFIRST); - Serial2.println("** Having a conversation, LSB first"); + SerialUSB.println("** Having a conversation, LSB first"); haveConversation(LSBFIRST); - Serial2.println(); - Serial2.println("*** All done! It looks like everything worked."); - Serial2.println(); + SerialUSB.println(); + SerialUSB.println("*** All done! It looks like everything worked."); + SerialUSB.println(); - Serial2.println("** Alice will now wax eloquent in various styles. " + SerialUSB.println("** Alice will now wax eloquent in various styles. " "Press any key for the next configuration."); soliloquies(MSBFIRST); soliloquies(LSBFIRST); @@ -100,28 +97,28 @@ void haveConversation(uint32 bitOrder) { } void chat(SPIFrequency frequency, uint32 bitOrder, uint32 mode) { - Serial2.print("Having a chat.\tFrequency: "); + SerialUSB.print("Having a chat.\tFrequency: "); printFrequencyString(frequency); - Serial2.print(",\tbitOrder: "); - Serial2.print(bitOrder == MSBFIRST ? "MSB" : "LSB"); - Serial2.print(",\tmode: "); - Serial2.print(mode); - Serial2.print("."); + SerialUSB.print(",\tbitOrder: "); + SerialUSB.print(bitOrder == MSBFIRST ? "MSB" : "LSB"); + SerialUSB.print(",\tmode: "); + SerialUSB.print(mode); + SerialUSB.print("."); - Serial2.print(" [1] "); + SerialUSB.print(" [1] "); alice.begin(frequency, bitOrder, mode); - Serial2.print(" [2] "); + SerialUSB.print(" [2] "); uint32 txed = 0; while (txed < TEST_BUF_SIZE) { ASSERT(alice.transfer(test_buf[txed]) == test_buf[txed]); txed++; } - Serial2.print(" [3] "); + SerialUSB.print(" [3] "); alice.end(); - Serial2.println(" ok."); + SerialUSB.println(" ok."); } void soliloquy(SPIFrequency freq, uint32 bitOrder, uint32 mode); @@ -136,48 +133,48 @@ void soliloquies(uint32 bitOrder) { void soliloquy(SPIFrequency frequency, uint32 bitOrder, uint32 mode) { const uint8 repeat = 0xAE; - Serial2.print("Alice is giving a soliloquy (repeating 0x"); - Serial2.print(repeat, HEX); - Serial2.print("). Frequency: "); + SerialUSB.print("Alice is giving a soliloquy (repeating 0x"); + SerialUSB.print(repeat, HEX); + SerialUSB.print("). Frequency: "); printFrequencyString(frequency); - Serial2.print(", bitOrder: "); - Serial2.print(bitOrder == MSBFIRST ? "big-endian" : "little-endian"); - Serial2.print(", SPI mode: "); - Serial2.println(mode); + SerialUSB.print(", bitOrder: "); + SerialUSB.print(bitOrder == MSBFIRST ? "big-endian" : "little-endian"); + SerialUSB.print(", SPI mode: "); + SerialUSB.println(mode); alice.begin(frequency, bitOrder, mode); - while (!Serial2.available()) { + while (!SerialUSB.available()) { alice.write(repeat); delayMicroseconds(200); } - Serial2.read(); + SerialUSB.read(); } void printFrequencyString(SPIFrequency frequency) { switch (frequency) { case SPI_18MHZ: - Serial2.print("18 MHz"); + SerialUSB.print("18 MHz"); break; case SPI_9MHZ: - Serial2.print("9 MHz"); + SerialUSB.print("9 MHz"); break; case SPI_4_5MHZ: - Serial2.print("4.5 MHz"); + SerialUSB.print("4.5 MHz"); break; case SPI_2_25MHZ: - Serial2.print("2.25 MHZ"); + SerialUSB.print("2.25 MHZ"); break; case SPI_1_125MHZ: - Serial2.print("1.125 MHz"); + SerialUSB.print("1.125 MHz"); break; case SPI_562_500KHZ: - Serial2.print("562.500 KHz"); + SerialUSB.print("562.500 KHz"); break; case SPI_281_250KHZ: - Serial2.print("281.250 KHz"); + SerialUSB.print("281.250 KHz"); break; case SPI_140_625KHZ: - Serial2.print("140.625 KHz"); + SerialUSB.print("140.625 KHz"); break; } } |