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makes all inline functions static to make building w/o optimization possible

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This commit is contained in:
Eyck-Alexander Jentzsch
2025-03-28 23:05:08 +01:00
parent c3d9e5fa6f
commit 38246a05ce
12 changed files with 342 additions and 342 deletions
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82
include/minres/devices/gen/uart.h
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@@ -101,135 +101,135 @@ typedef struct {
#define UART_STATUS_REG_CLEAR_BREAK(V) ((V & UART_STATUS_REG_CLEAR_BREAK_MASK) << UART_STATUS_REG_CLEAR_BREAK_OFFS)
//UART_RX_TX_REG
inline uint32_t get_uart_rx_tx_reg(volatile uart_t* reg){
static inline uint32_t get_uart_rx_tx_reg(volatile uart_t* reg){
return reg->RX_TX_REG;
}
inline void set_uart_rx_tx_reg(volatile uart_t* reg, uint32_t value){
static inline void set_uart_rx_tx_reg(volatile uart_t* reg, uint32_t value){
reg->RX_TX_REG = value;
}
inline uint32_t get_uart_rx_tx_reg_data(volatile uart_t* reg){
static inline uint32_t get_uart_rx_tx_reg_data(volatile uart_t* reg){
return (reg->RX_TX_REG >> 0) & 0xff;
}
inline void set_uart_rx_tx_reg_data(volatile uart_t* reg, uint8_t value){
static inline void set_uart_rx_tx_reg_data(volatile uart_t* reg, uint8_t value){
reg->RX_TX_REG = (reg->RX_TX_REG & ~(0xffU << 0)) | (value << 0);
}
inline uint32_t get_uart_rx_tx_reg_rx_avail(volatile uart_t* reg){
static inline uint32_t get_uart_rx_tx_reg_rx_avail(volatile uart_t* reg){
return (reg->RX_TX_REG >> 14) & 0x1;
}
inline uint32_t get_uart_rx_tx_reg_tx_free(volatile uart_t* reg){
static inline uint32_t get_uart_rx_tx_reg_tx_free(volatile uart_t* reg){
return (reg->RX_TX_REG >> 15) & 0x1;
}
inline uint32_t get_uart_rx_tx_reg_tx_empty(volatile uart_t* reg){
static inline uint32_t get_uart_rx_tx_reg_tx_empty(volatile uart_t* reg){
return (reg->RX_TX_REG >> 16) & 0x1;
}
//UART_INT_CTRL_REG
inline uint32_t get_uart_int_ctrl_reg(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg(volatile uart_t* reg){
return reg->INT_CTRL_REG;
}
inline void set_uart_int_ctrl_reg(volatile uart_t* reg, uint32_t value){
static inline void set_uart_int_ctrl_reg(volatile uart_t* reg, uint32_t value){
reg->INT_CTRL_REG = value;
}
inline uint32_t get_uart_int_ctrl_reg_write_intr_enable(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_write_intr_enable(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 0) & 0x1;
}
inline void set_uart_int_ctrl_reg_write_intr_enable(volatile uart_t* reg, uint8_t value){
static inline void set_uart_int_ctrl_reg_write_intr_enable(volatile uart_t* reg, uint8_t value){
reg->INT_CTRL_REG = (reg->INT_CTRL_REG & ~(0x1U << 0)) | (value << 0);
}
inline uint32_t get_uart_int_ctrl_reg_read_intr_enable(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_read_intr_enable(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 1) & 0x1;
}
inline void set_uart_int_ctrl_reg_read_intr_enable(volatile uart_t* reg, uint8_t value){
static inline void set_uart_int_ctrl_reg_read_intr_enable(volatile uart_t* reg, uint8_t value){
reg->INT_CTRL_REG = (reg->INT_CTRL_REG & ~(0x1U << 1)) | (value << 1);
}
inline uint32_t get_uart_int_ctrl_reg_break_intr_enable(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_break_intr_enable(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 2) & 0x1;
}
inline void set_uart_int_ctrl_reg_break_intr_enable(volatile uart_t* reg, uint8_t value){
static inline void set_uart_int_ctrl_reg_break_intr_enable(volatile uart_t* reg, uint8_t value){
reg->INT_CTRL_REG = (reg->INT_CTRL_REG & ~(0x1U << 2)) | (value << 2);
}
inline uint32_t get_uart_int_ctrl_reg_write_intr_pend(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_write_intr_pend(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 8) & 0x1;
}
inline uint32_t get_uart_int_ctrl_reg_read_intr_pend(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_read_intr_pend(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 9) & 0x1;
}
inline uint32_t get_uart_int_ctrl_reg_break_intr_pend(volatile uart_t* reg){
static inline uint32_t get_uart_int_ctrl_reg_break_intr_pend(volatile uart_t* reg){
return (reg->INT_CTRL_REG >> 10) & 0x1;
}
//UART_CLK_DIVIDER_REG
inline uint32_t get_uart_clk_divider_reg(volatile uart_t* reg){
static inline uint32_t get_uart_clk_divider_reg(volatile uart_t* reg){
return reg->CLK_DIVIDER_REG;
}
inline void set_uart_clk_divider_reg(volatile uart_t* reg, uint32_t value){
static inline void set_uart_clk_divider_reg(volatile uart_t* reg, uint32_t value){
reg->CLK_DIVIDER_REG = value;
}
inline uint32_t get_uart_clk_divider_reg_clock_divider(volatile uart_t* reg){
static inline uint32_t get_uart_clk_divider_reg_clock_divider(volatile uart_t* reg){
return (reg->CLK_DIVIDER_REG >> 0) & 0xfffff;
}
inline void set_uart_clk_divider_reg_clock_divider(volatile uart_t* reg, uint32_t value){
static inline void set_uart_clk_divider_reg_clock_divider(volatile uart_t* reg, uint32_t value){
reg->CLK_DIVIDER_REG = (reg->CLK_DIVIDER_REG & ~(0xfffffU << 0)) | (value << 0);
}
//UART_FRAME_CONFIG_REG
inline uint32_t get_uart_frame_config_reg(volatile uart_t* reg){
static inline uint32_t get_uart_frame_config_reg(volatile uart_t* reg){
return reg->FRAME_CONFIG_REG;
}
inline void set_uart_frame_config_reg(volatile uart_t* reg, uint32_t value){
static inline void set_uart_frame_config_reg(volatile uart_t* reg, uint32_t value){
reg->FRAME_CONFIG_REG = value;
}
inline uint32_t get_uart_frame_config_reg_data_length(volatile uart_t* reg){
static inline uint32_t get_uart_frame_config_reg_data_length(volatile uart_t* reg){
return (reg->FRAME_CONFIG_REG >> 0) & 0x7;
}
inline void set_uart_frame_config_reg_data_length(volatile uart_t* reg, uint8_t value){
static inline void set_uart_frame_config_reg_data_length(volatile uart_t* reg, uint8_t value){
reg->FRAME_CONFIG_REG = (reg->FRAME_CONFIG_REG & ~(0x7U << 0)) | (value << 0);
}
inline uint32_t get_uart_frame_config_reg_parity(volatile uart_t* reg){
static inline uint32_t get_uart_frame_config_reg_parity(volatile uart_t* reg){
return (reg->FRAME_CONFIG_REG >> 3) & 0x3;
}
inline void set_uart_frame_config_reg_parity(volatile uart_t* reg, uint8_t value){
static inline void set_uart_frame_config_reg_parity(volatile uart_t* reg, uint8_t value){
reg->FRAME_CONFIG_REG = (reg->FRAME_CONFIG_REG & ~(0x3U << 3)) | (value << 3);
}
inline uint32_t get_uart_frame_config_reg_stop_bit(volatile uart_t* reg){
static inline uint32_t get_uart_frame_config_reg_stop_bit(volatile uart_t* reg){
return (reg->FRAME_CONFIG_REG >> 5) & 0x1;
}
inline void set_uart_frame_config_reg_stop_bit(volatile uart_t* reg, uint8_t value){
static inline void set_uart_frame_config_reg_stop_bit(volatile uart_t* reg, uint8_t value){
reg->FRAME_CONFIG_REG = (reg->FRAME_CONFIG_REG & ~(0x1U << 5)) | (value << 5);
}
//UART_STATUS_REG
inline uint32_t get_uart_status_reg(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg(volatile uart_t* reg){
return reg->STATUS_REG;
}
inline void set_uart_status_reg(volatile uart_t* reg, uint32_t value){
static inline void set_uart_status_reg(volatile uart_t* reg, uint32_t value){
reg->STATUS_REG = value;
}
inline uint32_t get_uart_status_reg_read_error(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_read_error(volatile uart_t* reg){
return (reg->STATUS_REG >> 0) & 0x1;
}
inline uint32_t get_uart_status_reg_stall(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_stall(volatile uart_t* reg){
return (reg->STATUS_REG >> 1) & 0x1;
}
inline uint32_t get_uart_status_reg_break_line(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_break_line(volatile uart_t* reg){
return (reg->STATUS_REG >> 8) & 0x1;
}
inline uint32_t get_uart_status_reg_break_detected(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_break_detected(volatile uart_t* reg){
return (reg->STATUS_REG >> 9) & 0x1;
}
inline void set_uart_status_reg_break_detected(volatile uart_t* reg, uint8_t value){
static inline void set_uart_status_reg_break_detected(volatile uart_t* reg, uint8_t value){
reg->STATUS_REG = (reg->STATUS_REG & ~(0x1U << 9)) | (value << 9);
}
inline uint32_t get_uart_status_reg_set_break(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_set_break(volatile uart_t* reg){
return (reg->STATUS_REG >> 10) & 0x1;
}
inline void set_uart_status_reg_set_break(volatile uart_t* reg, uint8_t value){
static inline void set_uart_status_reg_set_break(volatile uart_t* reg, uint8_t value){
reg->STATUS_REG = (reg->STATUS_REG & ~(0x1U << 10)) | (value << 10);
}
inline uint32_t get_uart_status_reg_clear_break(volatile uart_t* reg){
static inline uint32_t get_uart_status_reg_clear_break(volatile uart_t* reg){
return (reg->STATUS_REG >> 11) & 0x1;
}
inline void set_uart_status_reg_clear_break(volatile uart_t* reg, uint8_t value){
static inline void set_uart_status_reg_clear_break(volatile uart_t* reg, uint8_t value){
reg->STATUS_REG = (reg->STATUS_REG & ~(0x1U << 11)) | (value << 11);
}