Update naming convention for GPIO control macros (#23085)

docs/custom_quantum_functions.md

@@ -119,11 +119,11 @@ void keyboard_pre_init_user(void) {
   // Call the keyboard pre init code.
 
   // Set our LED pins as output
-  setPinOutput(B0);
-  setPinOutput(B1);
-  setPinOutput(B2);
-  setPinOutput(B3);
-  setPinOutput(B4);
+  gpio_set_pin_output(B0);
+  gpio_set_pin_output(B1);
+  gpio_set_pin_output(B2);
+  gpio_set_pin_output(B3);
+  gpio_set_pin_output(B4);
 }
 ```
 

docs/feature_led_indicators.md

@@ -56,16 +56,16 @@ This is a template indicator function that can be implemented on keyboard level
 bool led_update_kb(led_t led_state) {
     bool res = led_update_user(led_state);
     if(res) {
-        // writePin sets the pin high for 1 and low for 0.
+        // gpio_write_pin sets the pin high for 1 and low for 0.
         // In this example the pins are inverted, setting
         // it low/0 turns it on, and high/1 turns the LED off.
         // This behavior depends on whether the LED is between the pin
         // and VCC or the pin and GND.
-        writePin(B0, !led_state.num_lock);
-        writePin(B1, !led_state.caps_lock);
-        writePin(B2, !led_state.scroll_lock);
-        writePin(B3, !led_state.compose);
-        writePin(B4, !led_state.kana);
+        gpio_write_pin(B0, !led_state.num_lock);
+        gpio_write_pin(B1, !led_state.caps_lock);
+        gpio_write_pin(B2, !led_state.scroll_lock);
+        gpio_write_pin(B3, !led_state.compose);
+        gpio_write_pin(B4, !led_state.kana);
     }
     return res;
 }

docs/gpio_control.md

@@ -2,29 +2,29 @@
 
 QMK has a GPIO control abstraction layer which is microcontroller agnostic. This is done to allow easy access to pin control across different platforms.
 
-## Functions :id=functions
+## Macros :id=macros
 
-The following functions provide basic control of GPIOs and are found in `platforms/<platform>/gpio.h`.
+The following macros provide basic control of GPIOs and are found in `platforms/<platform>/gpio.h`.
 
-| Function                     | Description                                         | Old AVR Examples                                | Old ChibiOS/ARM Examples                         |
-|------------------------------|-----------------------------------------------------|-------------------------------------------------|--------------------------------------------------|
-| `setPinInput(pin)`           | Set pin as input with high impedance (High-Z)       | `DDRB &= ~(1<<2)`                               | `palSetLineMode(pin, PAL_MODE_INPUT)`            |
-| `setPinInputHigh(pin)`       | Set pin as input with builtin pull-up resistor      | `DDRB &= ~(1<<2); PORTB \|= (1<<2)`             | `palSetLineMode(pin, PAL_MODE_INPUT_PULLUP)`     |
-| `setPinInputLow(pin)`        | Set pin as input with builtin pull-down resistor    | N/A (Not supported on AVR)                      | `palSetLineMode(pin, PAL_MODE_INPUT_PULLDOWN)`   |
-| `setPinOutput(pin)`          | Set pin as output (alias of `setPinOutputPushPull`) | `DDRB \|= (1<<2)`                               | `palSetLineMode(pin, PAL_MODE_OUTPUT_PUSHPULL)`  |
-| `setPinOutputPushPull(pin)`  | Set pin as output, push/pull mode                   | `DDRB \|= (1<<2)`                               | `palSetLineMode(pin, PAL_MODE_OUTPUT_PUSHPULL)`  |
-| `setPinOutputOpenDrain(pin)` | Set pin as output, open-drain mode                  | N/A (Not implemented on AVR)                    | `palSetLineMode(pin, PAL_MODE_OUTPUT_OPENDRAIN)` |
-| `writePinHigh(pin)`          | Set pin level as high, assuming it is an output     | `PORTB \|= (1<<2)`                              | `palSetLine(pin)`                                |
-| `writePinLow(pin)`           | Set pin level as low, assuming it is an output      | `PORTB &= ~(1<<2)`                              | `palClearLine(pin)`                              |
-| `writePin(pin, level)`       | Set pin level, assuming it is an output             | `(level) ? PORTB \|= (1<<2) : PORTB &= ~(1<<2)` | `(level) ? palSetLine(pin) : palClearLine(pin)`  |
-| `readPin(pin)`               | Returns the level of the pin                        | `_SFR_IO8(pin >> 4) & _BV(pin & 0xF)`           | `palReadLine(pin)`                               |
-| `togglePin(pin)`             | Invert pin level, assuming it is an output          | `PORTB ^= (1<<2)`                               | `palToggleLine(pin)`                             |
+|Macro                                |Description                                                          |
+|-------------------------------------|---------------------------------------------------------------------|
+|`gpio_set_pin_input(pin)`            |Set pin as input with high impedance (High-Z)                        |
+|`gpio_set_pin_input_high(pin)`       |Set pin as input with builtin pull-up resistor                       |
+|`gpio_set_pin_input_low(pin)`        |Set pin as input with builtin pull-down resistor (unavailable on AVR)|
+|`gpio_set_pin_output(pin)`           |Set pin as output (alias of `gpio_set_pin_output_push_pull`)         |
+|`gpio_set_pin_output_push_pull(pin)` |Set pin as output, push/pull mode                                    |
+|`gpio_set_pin_output_open_drain(pin)`|Set pin as output, open-drain mode (unavailable on AVR and ATSAM)    |
+|`gpio_write_pin_high(pin)`           |Set pin level as high, assuming it is an output                      |
+|`gpio_write_pin_low(pin)`            |Set pin level as low, assuming it is an output                       |
+|`gpio_write_pin(pin, level)`         |Set pin level, assuming it is an output                              |
+|`gpio_read_pin(pin)`                 |Returns the level of the pin                                         |
+|`gpio_toggle_pin(pin)`               |Invert pin level, assuming it is an output                           |
 
 ## Advanced Settings :id=advanced-settings
 
-Each microcontroller can have multiple advanced settings regarding its GPIO. This abstraction layer does not limit the use of architecture-specific functions. Advanced users should consult the datasheet of their desired device and include any needed libraries. For AVR, the standard avr/io.h library is used; for STM32, the ChibiOS [PAL library](https://chibios.sourceforge.net/docs3/hal/group___p_a_l.html) is used.
+Each microcontroller can have multiple advanced settings regarding its GPIO. This abstraction layer does not limit the use of architecture-specific functions. Advanced users should consult the datasheet of their desired device. For AVR, the standard `avr/io.h` library is used; for STM32, the ChibiOS [PAL library](https://chibios.sourceforge.net/docs3/hal/group___p_a_l.html) is used.
 
-## Atomic Operation
+## Atomic Operation :id=atomic-operation
 
 The above functions are not always guaranteed to work atomically. Therefore, if you want to prevent interruptions in the middle of operations when using multiple combinations of the above functions, use the following `ATOMIC_BLOCK_FORCEON` macro.
 

docs/i2c_driver.md

@@ -127,8 +127,8 @@ This function is weakly defined, meaning it can be overridden if necessary for y
 
 ```c
 void i2c_init(void) {
-    setPinInput(B6); // Try releasing special pins for a short time
-    setPinInput(B7);
+    gpio_set_pin_input(B6); // Try releasing special pins for a short time
+    gpio_set_pin_input(B7);
     wait_ms(10); // Wait for the release to happen
 
     palSetPadMode(GPIOB, 6, PAL_MODE_ALTERNATE(4) | PAL_STM32_OTYPE_OPENDRAIN | PAL_STM32_PUPDR_PULLUP); // Set B6 to I2C function