contrib: loaders: align switch and case statements

The coding style requires the 'case' to be at the same indentation
level of its 'switch' statement.

Align the code accordingly.

While there:
- add space around operators;
- remove space after cast.

Skip the file
	contrib/firmware/angie/c/src/usb.c
as it's going to be modified by a patch already pending in gerrit.

No changes are reported by
	git log -p -w --ignore-blank-lines --patience

Change-Id: I0bebd6d0cc95ddecd5794cc4c12c8412b38691e9
Signed-off-by: Antonio Borneo <borneo.antonio@gmail.com>
Reviewed-on: https://review.openocd.org/c/openocd/+/9046
Tested-by: jenkins
This commit is contained in:
Antonio Borneo
2025-07-26 10:36:26 +02:00
parent 302ce2b2ef
commit 83b92bc634
7 changed files with 331 additions and 331 deletions
+155 -155
View File
@@ -67,20 +67,20 @@ static bool __pcm_set_core_voltage_level_advanced(uint_fast8_t voltage_level,
reg_value = PCM->CTL0;
switch (pcm_get_power_state()) {
case PCM_AM_LF_VCORE1:
case PCM_AM_DCDC_VCORE1:
case PCM_AM_LDO_VCORE0:
PCM->CTL0 = (PCM_KEY | (PCM_AM_LDO_VCORE1)
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LF_VCORE0:
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LDO_VCORE1:
PCM->CTL0 = (PCM_KEY | (PCM_AM_LDO_VCORE0)
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
default:
break;
case PCM_AM_LF_VCORE1:
case PCM_AM_DCDC_VCORE1:
case PCM_AM_LDO_VCORE0:
PCM->CTL0 = (PCM_KEY | (PCM_AM_LDO_VCORE1)
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LF_VCORE0:
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LDO_VCORE1:
PCM->CTL0 = (PCM_KEY | (PCM_AM_LDO_VCORE0)
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
default:
break;
}
if (blocking) {
@@ -117,22 +117,22 @@ uint8_t pcm_get_power_mode(void)
current_power_state = pcm_get_power_state();
switch (current_power_state) {
case PCM_AM_DCDC_VCORE0:
case PCM_AM_DCDC_VCORE1:
case PCM_LPM0_DCDC_VCORE0:
case PCM_LPM0_DCDC_VCORE1:
return PCM_DCDC_MODE;
case PCM_LPM0_LF_VCORE0:
case PCM_LPM0_LF_VCORE1:
case PCM_AM_LF_VCORE1:
case PCM_AM_LF_VCORE0:
return PCM_LF_MODE;
case PCM_AM_LDO_VCORE0:
case PCM_AM_LDO_VCORE1:
case PCM_LPM0_LDO_VCORE0:
case PCM_LPM0_LDO_VCORE1:
default:
return PCM_LDO_MODE;
case PCM_AM_DCDC_VCORE0:
case PCM_AM_DCDC_VCORE1:
case PCM_LPM0_DCDC_VCORE0:
case PCM_LPM0_DCDC_VCORE1:
return PCM_DCDC_MODE;
case PCM_LPM0_LF_VCORE0:
case PCM_LPM0_LF_VCORE1:
case PCM_AM_LF_VCORE1:
case PCM_AM_LF_VCORE0:
return PCM_LF_MODE;
case PCM_AM_LDO_VCORE0:
case PCM_AM_LDO_VCORE1:
case PCM_LPM0_LDO_VCORE0:
case PCM_LPM0_LDO_VCORE1:
default:
return PCM_LDO_MODE;
}
}
@@ -141,23 +141,23 @@ uint8_t pcm_get_core_voltage_level(void)
uint8_t current_power_state = pcm_get_power_state();
switch (current_power_state) {
case PCM_AM_LDO_VCORE1:
case PCM_AM_DCDC_VCORE1:
case PCM_AM_LF_VCORE1:
case PCM_LPM0_LDO_VCORE1:
case PCM_LPM0_DCDC_VCORE1:
case PCM_LPM0_LF_VCORE1:
return PCM_VCORE1;
case PCM_LPM3:
return PCM_VCORELPM3;
case PCM_AM_LDO_VCORE0:
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LF_VCORE0:
case PCM_LPM0_LDO_VCORE0:
case PCM_LPM0_DCDC_VCORE0:
case PCM_LPM0_LF_VCORE0:
default:
return PCM_VCORE0;
case PCM_AM_LDO_VCORE1:
case PCM_AM_DCDC_VCORE1:
case PCM_AM_LF_VCORE1:
case PCM_LPM0_LDO_VCORE1:
case PCM_LPM0_DCDC_VCORE1:
case PCM_LPM0_LF_VCORE1:
return PCM_VCORE1;
case PCM_LPM3:
return PCM_VCORELPM3;
case PCM_AM_LDO_VCORE0:
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LF_VCORE0:
case PCM_LPM0_LDO_VCORE0:
case PCM_LPM0_DCDC_VCORE0:
case PCM_LPM0_LF_VCORE0:
default:
return PCM_VCORE0;
}
}
@@ -186,44 +186,44 @@ static bool __pcm_set_power_mode_advanced(uint_fast8_t power_mode,
reg_value = PCM->CTL0;
switch (current_power_state) {
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LF_VCORE0:
PCM->CTL0 = (PCM_KEY | PCM_AM_LDO_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LF_VCORE1:
case PCM_AM_DCDC_VCORE1:
PCM->CTL0 = (PCM_KEY | PCM_AM_LDO_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LDO_VCORE1:
if (power_mode == PCM_DCDC_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_DCDC_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else if (power_mode == PCM_LF_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_LF_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else {
return false;
}
break;
case PCM_AM_LDO_VCORE0:
if (power_mode == PCM_DCDC_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_DCDC_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else if (power_mode == PCM_LF_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_LF_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else {
return false;
}
break;
default:
break;
case PCM_AM_DCDC_VCORE0:
case PCM_AM_LF_VCORE0:
PCM->CTL0 = (PCM_KEY | PCM_AM_LDO_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LF_VCORE1:
case PCM_AM_DCDC_VCORE1:
PCM->CTL0 = (PCM_KEY | PCM_AM_LDO_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK | PCM_CTL0_AMR_MASK)));
break;
case PCM_AM_LDO_VCORE1:
if (power_mode == PCM_DCDC_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_DCDC_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else if (power_mode == PCM_LF_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_LF_VCORE1
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else {
return false;
}
break;
case PCM_AM_LDO_VCORE0:
if (power_mode == PCM_DCDC_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_DCDC_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else if (power_mode == PCM_LF_MODE) {
PCM->CTL0 = (PCM_KEY | PCM_AM_LF_VCORE0
| (reg_value & ~(PCM_CTL0_KEY_MASK
| PCM_CTL0_AMR_MASK)));
} else {
return false;
}
break;
default:
break;
}
if (blocking) {
@@ -257,76 +257,76 @@ static bool __pcm_set_power_state_advanced(uint_fast8_t power_state,
return true;
switch (power_state) {
case PCM_AM_LDO_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking);
case PCM_AM_LDO_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking);
case PCM_AM_DCDC_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking);
case PCM_AM_DCDC_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking);
case PCM_AM_LF_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking);
case PCM_AM_LF_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking);
case PCM_LPM0_LDO_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LDO_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_DCDC_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_DCDC_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LF_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LF_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM3:
return pcm_goto_lpm3();
case PCM_LPM4:
return pcm_goto_lpm4();
case PCM_LPM45:
return pcm_shutdown_device(PCM_LPM45);
case PCM_LPM35_VCORE0:
return pcm_shutdown_device(PCM_LPM35_VCORE0);
default:
return false;
case PCM_AM_LDO_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking);
case PCM_AM_LDO_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking);
case PCM_AM_DCDC_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking);
case PCM_AM_DCDC_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking);
case PCM_AM_LF_VCORE0:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking);
case PCM_AM_LF_VCORE1:
return __pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) && __pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking);
case PCM_LPM0_LDO_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LDO_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LDO_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_DCDC_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_DCDC_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_DCDC_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LF_VCORE0:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE0, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM0_LF_VCORE1:
if (!__pcm_set_core_voltage_level_advanced(PCM_VCORE1, timeout,
blocking) || !__pcm_set_power_mode_advanced(PCM_LF_MODE,
timeout, blocking))
break;
return pcm_goto_lpm0();
case PCM_LPM3:
return pcm_goto_lpm3();
case PCM_LPM4:
return pcm_goto_lpm4();
case PCM_LPM45:
return pcm_shutdown_device(PCM_LPM45);
case PCM_LPM35_VCORE0:
return pcm_shutdown_device(PCM_LPM35_VCORE0);
default:
return false;
}
return false;