X-Git-Url: https://codewiz.org/gitweb?a=blobdiff_plain;f=bertos%2Fhw%2Fhw_afsk.h;h=eae0ef739e596fad6faedda3455f02c175db975d;hb=48608a70827e29e594e42605275362af7905bc7a;hp=e02d9e5087281503a89d5e2a031e31305e94dbc0;hpb=5254bfa9aa0e9dd3bca2a54ecbba23d2bb999300;p=bertos.git

diff --git a/bertos/hw/hw_afsk.h b/bertos/hw/hw_afsk.h
index e02d9e50..eae0ef73 100644
--- a/bertos/hw/hw_afsk.h
+++ b/bertos/hw/hw_afsk.h
@@ -32,8 +32,6 @@
  *
  * \brief AFSK modem hardware-specific definitions.
  *
- * \version $Id$
- *
  * \author Francesco Sacchi <batt@develer.com>
  */
 
@@ -42,83 +40,46 @@
 
 #include "cfg/cfg_arch.h"
 
-#if !(ARCH & ARCH_UNITTEST)
-	#warning TODO:This is an example implementation, you must implement it!
-
-	/**
-	 * Initialize the specified channel of the ADC for AFSK needs.
-	 * The adc should be configured to have a continuos stream of convertions.
-	 * For every convertion there must be an ISR that read the sample
-	 * and call afsk_adc_isr(), passing the context and the sample.
-	 *
-	 * \param ch channel to be used for AFSK demodulation.
-	 * \param ctx AFSK context. This parameter must be saved and
-	 *            passed back to afsk_adc_isr() for every convertion.
-	 */
-	#define AFSK_ADC_INIT(ch, ctx) do { (void)ch, (void)ctx; } while (0)
-
-	#define AFSK_STROBE_INIT() do { /* Implement me */ } while (0)
-	#define AFSK_STROBE_ON()   do { /* Implement me */ } while (0)
-	#define AFSK_STROBE_OFF()  do { /* Implement me */ } while (0)
-
-	/**
-	 * Initialize the specified channel of the DAC for AFSK needs.
-	 * The DAC have to be configured in order to call an ISR for every sample sent.
-	 * The DAC doesn't have to start the IRQ immediatly but have to wait
-	 * the AFSK driver to call AFSK_DAC_IRQ_START().
-	 * The ISR must then call afsk_dac_isr() passing the AFSK context.
-	 * \param ch DAC channel to be used for AFSK modulation.
-	 * \param ctx AFSK context.  This parameter must be saved and
-	 *             passed back to afsk_dac_isr() for every convertion.
-	 */
-	#define AFSK_DAC_INIT(ch, ctx)   do { (void)ch, (void)ctx; } while (0)
-
-	/**
-	 * Start DAC convertions on channel \a ch.
-	 * \param ch DAC channel.
-	 */
-	#define AFSK_DAC_IRQ_START(ch)   do { (void)ch; /* Implement me */ } while (0)
+#warning TODO:This is an example implementation, you must implement it!
 
-	/**
-	 * Stop DAC convertions on channel \a ch.
-	 * \param ch DAC channel.
-	 */
-	#define AFSK_DAC_IRQ_STOP(ch)    do { (void)ch; /* Implement me */ } while (0)
-
-	/**
-	 * Set the next DAC value for channel \a ch.
-	 * This macro is called by afsk_dac_isr() to set the next DAC output value.
-	 * \param ch DAC channel.
-	 * \param val Next DAC output value for channel.
-	 */
-	#define AFSK_DAC_SET(ch, val)    do { (void)ch; (void)val; } while (0)
-#else /* (ARCH & ARCH_UNITTEST) */
-
-	#include <stdio.h>
-	#include <cfg/compiler.h>
-
-	/* For test */
-	extern uint32_t data_written;
-	extern FILE *fp_dac;
-	extern bool afsk_tx_test;
+/**
+ * Initialize the specified channel of the ADC for AFSK needs.
+ * The adc should be configured to have a continuos stream of convertions.
+ * For every convertion there must be an ISR that read the sample
+ * and call afsk_adc_isr(), passing the context and the sample.
+ *
+ * \param ch channel to be used for AFSK demodulation.
+ * \param ctx AFSK context (\see Afsk). This parameter must be saved and
+ *            passed back to afsk_adc_isr() for every convertion.
+ */
+#define AFSK_ADC_INIT(ch, ctx) do { (void)ch, (void)ctx; } while (0)
 
-	#define AFSK_ADC_INIT(ch, ctx)    do { (void)ch, (void)ctx; } while (0)
+#define AFSK_STROBE_INIT() do { /* Implement me */ } while (0)
+#define AFSK_STROBE_ON()   do { /* Implement me */ } while (0)
+#define AFSK_STROBE_OFF()  do { /* Implement me */ } while (0)
 
-	#define AFSK_STROBE_INIT()  /* Implement me */
-	#define AFSK_STROBE_ON()    /* Implement me */
-	#define AFSK_STROBE_OFF()   /* Implement me */
+/**
+ * Initialize the specified channel of the DAC for AFSK needs.
+ * The DAC has to be configured in order to call an ISR for every sample sent.
+ * The DAC doesn't have to start the IRQ immediatly but have to wait
+ * the AFSK driver to call AFSK_DAC_IRQ_START().
+ * The ISR must then call afsk_dac_isr() passing the AFSK context.
+ * \param ch DAC channel to be used for AFSK modulation.
+ * \param ctx AFSK context (\see Afsk).  This parameter must be saved and
+ *             passed back to afsk_dac_isr() for every convertion.
+ */
+#define AFSK_DAC_INIT(ch, ctx)   do { (void)ch, (void)ctx; } while (0)
 
-	#define AFSK_DAC_INIT(ch, ctx)   do { (void)ch, (void)ctx; } while (0)
-	#define AFSK_DAC_IRQ_START(ch)   do { (void)ch; afsk_tx_test = true; } while (0)
-	#define AFSK_DAC_IRQ_STOP(ch)    do { (void)ch; afsk_tx_test = false; } while (0)
-	#define AFSK_DAC_SET(ch, _val)     \
-	do { \
-		(void)ch; \
-		int8_t val = (_val) - 128; \
-		ASSERT(fwrite(&val, 1, sizeof(val), fp_dac) == sizeof(val)); \
-		data_written++; \
-	} while (0)
+/**
+ * Start DAC convertions on channel \a ch.
+ * \param ch DAC channel.
+ */
+#define AFSK_DAC_IRQ_START(ch)   do { (void)ch; /* Implement me */ } while (0)
 
-#endif /* !(ARCH & ARCH_UNITTEST) */
+/**
+ * Stop DAC convertions on channel \a ch.
+ * \param ch DAC channel.
+ */
+#define AFSK_DAC_IRQ_STOP(ch)    do { (void)ch; /* Implement me */ } while (0)
 
 #endif /* HW_AFSK_H */