#ifndef __INC_FASTSPI_NOP_H
#define __INC_FASTSPI_NOP_H

// A nop/stub class, mostly to show the SPI methods that are needed/used by the various SPI chipset implementations.  Should
// be used as a definition for the set of methods that the spi implementation classes should use (since C++ doesn't support the
// idea of interfaces - it's possible this could be done with virtual classes, need to decide if i want that overhead)
template <uint8_t _DATA_PIN, uint8_t _CLOCK_PIN, uint8_t _SPI_CLOCK_DIVIDER>
class NOPSPIOutput {

public:
	NOPSPIOutput() { /* TODO */ }
	NOPSPIOutput(Selectable *pSelect) { /* TODO */ }

	// set the object representing the selectable
	void setSelect(Selectable *pSelect) { /* TODO */ }

	// initialize the SPI subssytem
	void init() { /* TODO */ }

	// latch the CS select
	void select() { /* TODO */ }

	// release the CS select 
	void release() { /* TODO */ }

	// wait until all queued up data has been written
	void waitFully();
	
	// write a byte out via SPI (returns immediately on writing register)
	void writeByte(uint8_t b) { /* TODO */ }
	// write a word out via SPI (returns immediately on writing register)
	void writeWord(uint16_t w) { /* TODO */ }

	// A raw set of writing byte values, assumes setup/init/waiting done elsewhere (static for use by adjustment classes)
	static void writeBytesValueRaw(uint8_t value, int len) { /* TODO */ }	

	// A full cycle of writing a value for len bytes, including select, release, and waiting
	void writeBytesValue(uint8_t value, int len) { /* TODO */ }

	// A full cycle of writing a raw block of data out, including select, release, and waiting
	void writeBytes(uint8_t *data, int len) { /* TODO */ }

	// write a single bit out, which bit from the passed in byte is determined by template parameter
	template <uint8_t BIT> inline static void writeBit(uint8_t b) { /* TODO */ }

	template <uint8_t SKIP, class D, EOrder RGB_ORDER> void writeBytes3(register uint8_t *data, int len, register uint8_t scale) { /* TODO*/ }

	// template instantiations for writeBytes 3
	template <uint8_t SKIP, EOrder RGB_ORDER> void writeBytes3(register uint8_t *data, int len, register uint8_t scale) { 
		writeBytes3<SKIP, DATA_NOP, RGB_ORDER>(data, len, scale); 
	}
	template <class D, EOrder RGB_ORDER> void writeBytes3(register uint8_t *data, int len, register uint8_t scale) { 
		writeBytes3<0, D, RGB_ORDER>(data, len, scale); 
	}
	template <EOrder RGB_ORDER> void writeBytes3(register uint8_t *data, int len, register uint8_t scale) { 
		writeBytes3<0, DATA_NOP, RGB_ORDER>(data, len, scale); 
	}
	void writeBytes3(register uint8_t *data, int len, register uint8_t scale) { 
		writeBytes3<0, DATA_NOP, RGB>(data, len, scale); 

};

#endif