Compact some macro substitutions

master
Scott Lahteine 8 years ago
parent 2f620f86d9
commit aef08e8780

@ -1087,17 +1087,17 @@ void Temperature::init() {
delay(250); delay(250);
#define TEMP_MIN_ROUTINE(NR) \ #define TEMP_MIN_ROUTINE(NR) \
minttemp[NR] = HEATER_ ## NR ## _MINTEMP; \ minttemp[NR] = HEATER_ ##NR## _MINTEMP; \
while(analog2temp(minttemp_raw[NR], NR) < HEATER_ ## NR ## _MINTEMP) { \ while(analog2temp(minttemp_raw[NR], NR) < HEATER_ ##NR## _MINTEMP) { \
if (HEATER_ ## NR ## _RAW_LO_TEMP < HEATER_ ## NR ## _RAW_HI_TEMP) \ if (HEATER_ ##NR## _RAW_LO_TEMP < HEATER_ ##NR## _RAW_HI_TEMP) \
minttemp_raw[NR] += OVERSAMPLENR; \ minttemp_raw[NR] += OVERSAMPLENR; \
else \ else \
minttemp_raw[NR] -= OVERSAMPLENR; \ minttemp_raw[NR] -= OVERSAMPLENR; \
} }
#define TEMP_MAX_ROUTINE(NR) \ #define TEMP_MAX_ROUTINE(NR) \
maxttemp[NR] = HEATER_ ## NR ## _MAXTEMP; \ maxttemp[NR] = HEATER_ ##NR## _MAXTEMP; \
while(analog2temp(maxttemp_raw[NR], NR) > HEATER_ ## NR ## _MAXTEMP) { \ while(analog2temp(maxttemp_raw[NR], NR) > HEATER_ ##NR## _MAXTEMP) { \
if (HEATER_ ## NR ## _RAW_LO_TEMP < HEATER_ ## NR ## _RAW_HI_TEMP) \ if (HEATER_ ##NR## _RAW_LO_TEMP < HEATER_ ##NR## _RAW_HI_TEMP) \
maxttemp_raw[NR] -= OVERSAMPLENR; \ maxttemp_raw[NR] -= OVERSAMPLENR; \
else \ else \
maxttemp_raw[NR] += OVERSAMPLENR; \ maxttemp_raw[NR] += OVERSAMPLENR; \
@ -1256,7 +1256,7 @@ void Temperature::disable_all_heaters() {
#define DISABLE_HEATER(NR) { \ #define DISABLE_HEATER(NR) { \
setTargetHotend(0, NR); \ setTargetHotend(0, NR); \
soft_pwm[NR] = 0; \ soft_pwm[NR] = 0; \
WRITE_HEATER_ ## NR (LOW); \ WRITE_HEATER_ ##NR (LOW); \
} }
#if HAS_TEMP_HOTEND #if HAS_TEMP_HOTEND
@ -1621,29 +1621,29 @@ void Temperature::isr() {
// Macros for Slow PWM timer logic // Macros for Slow PWM timer logic
#define _SLOW_PWM_ROUTINE(NR, src) \ #define _SLOW_PWM_ROUTINE(NR, src) \
soft_pwm_ ## NR = src; \ soft_pwm_ ##NR = src; \
if (soft_pwm_ ## NR > 0) { \ if (soft_pwm_ ##NR > 0) { \
if (state_timer_heater_ ## NR == 0) { \ if (state_timer_heater_ ##NR == 0) { \
if (state_heater_ ## NR == 0) state_timer_heater_ ## NR = MIN_STATE_TIME; \ if (state_heater_ ##NR == 0) state_timer_heater_ ##NR = MIN_STATE_TIME; \
state_heater_ ## NR = 1; \ state_heater_ ##NR = 1; \
WRITE_HEATER_ ## NR(1); \ WRITE_HEATER_ ##NR(1); \
} \ } \
} \ } \
else { \ else { \
if (state_timer_heater_ ## NR == 0) { \ if (state_timer_heater_ ##NR == 0) { \
if (state_heater_ ## NR == 1) state_timer_heater_ ## NR = MIN_STATE_TIME; \ if (state_heater_ ##NR == 1) state_timer_heater_ ##NR = MIN_STATE_TIME; \
state_heater_ ## NR = 0; \ state_heater_ ##NR = 0; \
WRITE_HEATER_ ## NR(0); \ WRITE_HEATER_ ##NR(0); \
} \ } \
} }
#define SLOW_PWM_ROUTINE(n) _SLOW_PWM_ROUTINE(n, soft_pwm[n]) #define SLOW_PWM_ROUTINE(n) _SLOW_PWM_ROUTINE(n, soft_pwm[n])
#define PWM_OFF_ROUTINE(NR) \ #define PWM_OFF_ROUTINE(NR) \
if (soft_pwm_ ## NR < slow_pwm_count) { \ if (soft_pwm_ ##NR < slow_pwm_count) { \
if (state_timer_heater_ ## NR == 0) { \ if (state_timer_heater_ ##NR == 0) { \
if (state_heater_ ## NR == 1) state_timer_heater_ ## NR = MIN_STATE_TIME; \ if (state_heater_ ##NR == 1) state_timer_heater_ ##NR = MIN_STATE_TIME; \
state_heater_ ## NR = 0; \ state_heater_ ##NR = 0; \
WRITE_HEATER_ ## NR (0); \ WRITE_HEATER_ ##NR (0); \
} \ } \
} }

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