Much more efficient algorithm for the Endpoint/Pipe configuration routine of unordered endpoints/pipes - only reconfigure the endpoints and pipes above the newly configured endpoint/pipe, and don't cache existing endpoint/pipe configuration before use to save SRAM.

pull/1469/head
Dean Camera 14 years ago
parent 5489af7fa0
commit bfa622d27e

@ -53,42 +53,37 @@ bool Endpoint_ConfigureEndpoint_Prv(const uint8_t Number,
return Endpoint_IsConfigured();
#else
uint8_t UECFG0XTemp[ENDPOINT_TOTAL_ENDPOINTS];
uint8_t UECFG1XTemp[ENDPOINT_TOTAL_ENDPOINTS];
uint8_t UEIENXTemp[ENDPOINT_TOTAL_ENDPOINTS];
for (uint8_t EPNum = 0; EPNum < ENDPOINT_TOTAL_ENDPOINTS; EPNum++)
for (uint8_t EPNum = Number; EPNum < ENDPOINT_TOTAL_ENDPOINTS; EPNum++)
{
Endpoint_SelectEndpoint(EPNum);
UECFG0XTemp[EPNum] = UECFG0X;
UECFG1XTemp[EPNum] = UECFG1X;
UEIENXTemp[EPNum] = UEIENX;
}
UECFG0XTemp[Number] = UECFG0XData;
UECFG1XTemp[Number] = UECFG1XData;
UEIENXTemp[Number] = 0;
uint8_t UECFG0XTemp;
uint8_t UECFG1XTemp;
uint8_t UEIENXTemp;
for (uint8_t EPNum = 1; EPNum < ENDPOINT_TOTAL_ENDPOINTS; EPNum++)
{
Endpoint_SelectEndpoint(EPNum);
UEIENX = 0;
UEINTX = 0;
UECFG1X = 0;
Endpoint_DisableEndpoint();
}
for (uint8_t EPNum = 0; EPNum < ENDPOINT_TOTAL_ENDPOINTS; EPNum++)
{
if (!(UECFG1XTemp[EPNum] & (1 << ALLOC)))
if (EPNum == Number)
{
UECFG0XTemp = UECFG0XData;
UECFG1XTemp = UECFG1XData;
UEIENXTemp = 0;
}
else
{
UECFG0XTemp = UECFG0X;
UECFG1XTemp = UECFG1X;
UEIENXTemp = UEIENX;
}
if (!(UECFG1XTemp & (1 << ALLOC)))
continue;
Endpoint_SelectEndpoint(EPNum);
Endpoint_EnableEndpoint();
Endpoint_DisableEndpoint();
UECFG1X &= (1 << ALLOC);
UECFG0X = UECFG0XTemp[EPNum];
UECFG1X = UECFG1XTemp[EPNum];
UEIENX = UEIENXTemp[EPNum];
Endpoint_EnableEndpoint();
UECFG0X = UECFG0XTemp;
UECFG1X = UECFG1XTemp;
UEIENX = UEIENXTemp;
if (!(Endpoint_IsConfigured()))
return false;

@ -57,54 +57,49 @@ bool Pipe_ConfigurePipe(const uint8_t Number,
return Pipe_IsConfigured();
#else
uint8_t UPCFG0XTemp[PIPE_TOTAL_PIPES];
uint8_t UPCFG1XTemp[PIPE_TOTAL_PIPES];
uint8_t UPCFG2XTemp[PIPE_TOTAL_PIPES];
uint8_t UPCONXTemp[PIPE_TOTAL_PIPES];
uint8_t UPINRQXTemp[PIPE_TOTAL_PIPES];
uint8_t UPIENXTemp[PIPE_TOTAL_PIPES];
for (uint8_t PNum = 0; PNum < PIPE_TOTAL_PIPES; PNum++)
for (uint8_t PNum = Number; PNum < PIPE_TOTAL_PIPES; PNum++)
{
Pipe_SelectPipe(PNum);
UPCFG0XTemp[PNum] = UPCFG0X;
UPCFG1XTemp[PNum] = UPCFG1X;
UPCFG2XTemp[PNum] = UPCFG2X;
UPCONXTemp[PNum] = UPCONX;
UPINRQXTemp[PNum] = UPINRQX;
UPIENXTemp[PNum] = UPIENX;
}
UPCFG0XTemp[Number] = ((Type << EPTYPE0) | Token | ((EndpointNumber & PIPE_EPNUM_MASK) << PEPNUM0));
UPCFG1XTemp[Number] = ((1 << ALLOC) | Banks | Pipe_BytesToEPSizeMask(Size));
UPCFG2XTemp[Number] = 0;
UPCONXTemp[Number] = (1 << INMODE);
UPINRQXTemp[Number] = 0;
UPIENXTemp[Number] = 0;
uint8_t UPCFG0XTemp;
uint8_t UPCFG1XTemp;
uint8_t UPCFG2XTemp;
uint8_t UPCONXTemp;
uint8_t UPINRQXTemp;
uint8_t UPIENXTemp;
for (uint8_t PNum = 0; PNum < PIPE_TOTAL_PIPES; PNum++)
{
Pipe_SelectPipe(PNum);
UPIENX = 0;
UPINTX = 0;
UPCFG1X = 0;
Pipe_DisablePipe();
}
for (uint8_t PNum = 0; PNum < PIPE_TOTAL_PIPES; PNum++)
{
if (!(UPCFG1XTemp[PNum] & (1 << ALLOC)))
if (PNum == Number)
{
UPCFG0XTemp = ((Type << EPTYPE0) | Token | ((EndpointNumber & PIPE_EPNUM_MASK) << PEPNUM0));
UPCFG1XTemp = ((1 << ALLOC) | Banks | Pipe_BytesToEPSizeMask(Size));
UPCFG2XTemp = 0;
UPCONXTemp = ((1 << PEN) | (1 << INMODE));
UPINRQXTemp = 0;
UPIENXTemp = 0;
}
else
{
UPCFG0XTemp = UPCFG0X;
UPCFG1XTemp = UPCFG1X;
UPCFG2XTemp = UPCFG2X;
UPCONXTemp = UPCONX;
UPINRQXTemp = UPINRQX;
UPIENXTemp = UPIENX;
}
if (!(UPCFG1XTemp & (1 << ALLOC)))
continue;
Pipe_SelectPipe(PNum);
Pipe_EnablePipe();
Pipe_DisablePipe();
UPCFG1X &= (1 << ALLOC);
UPCFG0X = UPCFG0XTemp[PNum];
UPCFG1X = UPCFG1XTemp[PNum];
UPCFG2X = UPCFG2XTemp[PNum];
UPCONX |= UPCONXTemp[PNum];
UPINRQX = UPINRQXTemp[PNum];
UPIENX = UPIENXTemp[PNum];
Pipe_EnablePipe();
UPCFG0X = UPCFG0XTemp;
UPCFG1X = UPCFG1XTemp;
UPCFG2X = UPCFG2XTemp;
UPCONX = UPCONXTemp;
UPINRQX = UPINRQXTemp;
UPIENX = UPIENXTemp;
if (!(Pipe_IsConfigured()))
return false;

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