#[doc = r"Register block"]
#[repr(C)]
pub struct RegisterBlock {
#[doc = "0x00 - TIM7 control register 1"]
pub tim7_cr1: crate::Reg<tim7_cr1::TIM7_CR1_SPEC>,
_reserved1: [u8; 0x02],
#[doc = "0x04 - TIM7 control register 2"]
pub tim7_cr2: crate::Reg<tim7_cr2::TIM7_CR2_SPEC>,
#[doc = "0x08 - TIM7 slave mode control register"]
pub tim7_smcr: crate::Reg<tim7_smcr::TIM7_SMCR_SPEC>,
#[doc = "0x0c - TIM7 DMA/interrupt enable register"]
pub tim7_dier: crate::Reg<tim7_dier::TIM7_DIER_SPEC>,
_reserved4: [u8; 0x02],
#[doc = "0x10 - TIM7 status register"]
pub tim7_sr: crate::Reg<tim7_sr::TIM7_SR_SPEC>,
#[doc = "0x14 - TIM7 event generation register"]
pub tim7_egr: crate::Reg<tim7_egr::TIM7_EGR_SPEC>,
_reserved6: [u8; 0x02],
#[doc = "0x18 - The same register can be used for input capture mode (this section) or for output compare mode (next section). The direction of a channel is defined by configuring the corresponding CCxS bits. All the other bits of this register have a different function for input capture and for output compare modes. It is possible to combine both modes independently (e.g. channel 1 in input capture mode and channel 2 in output compare mode). Input capture mode:"]
pub tim7_ccmr1alternate7: crate::Reg<tim7_ccmr1alternate7::TIM7_CCMR1ALTERNATE7_SPEC>,
#[doc = "0x1c - The same register can be used for input capture mode (this section) or for output compare mode (next section). The direction of a channel is defined by configuring the corresponding CCxS bits. All the other bits of this register have a different function for input capture and for output compare modes. It is possible to combine both modes independently (e.g. channel 1 in input capture mode and channel 2 in output compare mode). Input capture mode:"]
pub tim7_ccmr2alternate23: crate::Reg<tim7_ccmr2alternate23::TIM7_CCMR2ALTERNATE23_SPEC>,
#[doc = "0x20 - TIM7 capture/compare enable register"]
pub tim7_ccer: crate::Reg<tim7_ccer::TIM7_CCER_SPEC>,
#[doc = "0x24 - TIM7 counter"]
pub tim7_cnt: crate::Reg<tim7_cnt::TIM7_CNT_SPEC>,
#[doc = "0x28 - TIM7 prescaler"]
pub tim7_psc: crate::Reg<tim7_psc::TIM7_PSC_SPEC>,
_reserved11: [u8; 0x02],
#[doc = "0x2c - TIM7 auto-reload register"]
pub tim7_arr: crate::Reg<tim7_arr::TIM7_ARR_SPEC>,
_reserved12: [u8; 0x02],
#[doc = "0x30 - TIM7 repetition counter register"]
pub tim7_rcr: crate::Reg<tim7_rcr::TIM7_RCR_SPEC>,
_reserved13: [u8; 0x02],
#[doc = "0x34 - TIM7 capture/compare register 1"]
pub tim7_ccr1: crate::Reg<tim7_ccr1::TIM7_CCR1_SPEC>,
_reserved14: [u8; 0x02],
#[doc = "0x38 - TIM7 capture/compare register 2"]
pub tim7_ccr2: crate::Reg<tim7_ccr2::TIM7_CCR2_SPEC>,
_reserved15: [u8; 0x02],
#[doc = "0x3c - TIM7 capture/compare register 3"]
pub tim7_ccr3: crate::Reg<tim7_ccr3::TIM7_CCR3_SPEC>,
_reserved16: [u8; 0x02],
#[doc = "0x40 - TIM7 capture/compare register 4"]
pub tim7_ccr4: crate::Reg<tim7_ccr4::TIM7_CCR4_SPEC>,
_reserved17: [u8; 0x02],
#[doc = "0x44 - As the bits BK2BID, BKBID, BK2DSRM, BKDSRM, BK2P, BK2E, BK2F\\[3:0\\], BKF\\[3:0\\], AOE, BKP, BKE, OSSI, OSSR and DTG\\[7:0\\]
can be write-locked depending on the LOCK configuration, it can be necessary to configure all of them during the first write access to the TIMx_BDTR register."]
pub tim7_bdtr: crate::Reg<tim7_bdtr::TIM7_BDTR_SPEC>,
#[doc = "0x48 - TIM7 DMA control register"]
pub tim7_dcr: crate::Reg<tim7_dcr::TIM7_DCR_SPEC>,
_reserved19: [u8; 0x02],
#[doc = "0x4c - TIM7 DMA address for full transfer"]
pub tim7_dmar: crate::Reg<tim7_dmar::TIM7_DMAR_SPEC>,
_reserved20: [u8; 0x04],
#[doc = "0x54 - The channels 5 and 6 can only be configured in output. Output compare mode:"]
pub tim7_ccmr3: crate::Reg<tim7_ccmr3::TIM7_CCMR3_SPEC>,
#[doc = "0x58 - TIM7 capture/compare register 5"]
pub tim7_ccr5: crate::Reg<tim7_ccr5::TIM7_CCR5_SPEC>,
#[doc = "0x5c - TIM7 capture/compare register 6"]
pub tim7_ccr6: crate::Reg<tim7_ccr6::TIM7_CCR6_SPEC>,
}
#[doc = "TIM7_CR1 register accessor: an alias for `Reg<TIM7_CR1_SPEC>`"]
pub type TIM7_CR1 = crate::Reg<tim7_cr1::TIM7_CR1_SPEC>;
#[doc = "TIM7 control register 1"]
pub mod tim7_cr1;
#[doc = "TIM7_CR2 register accessor: an alias for `Reg<TIM7_CR2_SPEC>`"]
pub type TIM7_CR2 = crate::Reg<tim7_cr2::TIM7_CR2_SPEC>;
#[doc = "TIM7 control register 2"]
pub mod tim7_cr2;
#[doc = "TIM7_SMCR register accessor: an alias for `Reg<TIM7_SMCR_SPEC>`"]
pub type TIM7_SMCR = crate::Reg<tim7_smcr::TIM7_SMCR_SPEC>;
#[doc = "TIM7 slave mode control register"]
pub mod tim7_smcr;
#[doc = "TIM7_DIER register accessor: an alias for `Reg<TIM7_DIER_SPEC>`"]
pub type TIM7_DIER = crate::Reg<tim7_dier::TIM7_DIER_SPEC>;
#[doc = "TIM7 DMA/interrupt enable register"]
pub mod tim7_dier;
#[doc = "TIM7_SR register accessor: an alias for `Reg<TIM7_SR_SPEC>`"]
pub type TIM7_SR = crate::Reg<tim7_sr::TIM7_SR_SPEC>;
#[doc = "TIM7 status register"]
pub mod tim7_sr;
#[doc = "TIM7_EGR register accessor: an alias for `Reg<TIM7_EGR_SPEC>`"]
pub type TIM7_EGR = crate::Reg<tim7_egr::TIM7_EGR_SPEC>;
#[doc = "TIM7 event generation register"]
pub mod tim7_egr;
#[doc = "TIM7_CCMR1ALTERNATE7 register accessor: an alias for `Reg<TIM7_CCMR1ALTERNATE7_SPEC>`"]
pub type TIM7_CCMR1ALTERNATE7 = crate::Reg<tim7_ccmr1alternate7::TIM7_CCMR1ALTERNATE7_SPEC>;
#[doc = "The same register can be used for input capture mode (this section) or for output compare mode (next section). The direction of a channel is defined by configuring the corresponding CCxS bits. All the other bits of this register have a different function for input capture and for output compare modes. It is possible to combine both modes independently (e.g. channel 1 in input capture mode and channel 2 in output compare mode). Input capture mode:"]
pub mod tim7_ccmr1alternate7;
#[doc = "TIM7_CCMR2ALTERNATE23 register accessor: an alias for `Reg<TIM7_CCMR2ALTERNATE23_SPEC>`"]
pub type TIM7_CCMR2ALTERNATE23 = crate::Reg<tim7_ccmr2alternate23::TIM7_CCMR2ALTERNATE23_SPEC>;
#[doc = "The same register can be used for input capture mode (this section) or for output compare mode (next section). The direction of a channel is defined by configuring the corresponding CCxS bits. All the other bits of this register have a different function for input capture and for output compare modes. It is possible to combine both modes independently (e.g. channel 1 in input capture mode and channel 2 in output compare mode). Input capture mode:"]
pub mod tim7_ccmr2alternate23;
#[doc = "TIM7_CCER register accessor: an alias for `Reg<TIM7_CCER_SPEC>`"]
pub type TIM7_CCER = crate::Reg<tim7_ccer::TIM7_CCER_SPEC>;
#[doc = "TIM7 capture/compare enable register"]
pub mod tim7_ccer;
#[doc = "TIM7_CNT register accessor: an alias for `Reg<TIM7_CNT_SPEC>`"]
pub type TIM7_CNT = crate::Reg<tim7_cnt::TIM7_CNT_SPEC>;
#[doc = "TIM7 counter"]
pub mod tim7_cnt;
#[doc = "TIM7_PSC register accessor: an alias for `Reg<TIM7_PSC_SPEC>`"]
pub type TIM7_PSC = crate::Reg<tim7_psc::TIM7_PSC_SPEC>;
#[doc = "TIM7 prescaler"]
pub mod tim7_psc;
#[doc = "TIM7_ARR register accessor: an alias for `Reg<TIM7_ARR_SPEC>`"]
pub type TIM7_ARR = crate::Reg<tim7_arr::TIM7_ARR_SPEC>;
#[doc = "TIM7 auto-reload register"]
pub mod tim7_arr;
#[doc = "TIM7_RCR register accessor: an alias for `Reg<TIM7_RCR_SPEC>`"]
pub type TIM7_RCR = crate::Reg<tim7_rcr::TIM7_RCR_SPEC>;
#[doc = "TIM7 repetition counter register"]
pub mod tim7_rcr;
#[doc = "TIM7_CCR1 register accessor: an alias for `Reg<TIM7_CCR1_SPEC>`"]
pub type TIM7_CCR1 = crate::Reg<tim7_ccr1::TIM7_CCR1_SPEC>;
#[doc = "TIM7 capture/compare register 1"]
pub mod tim7_ccr1;
#[doc = "TIM7_CCR2 register accessor: an alias for `Reg<TIM7_CCR2_SPEC>`"]
pub type TIM7_CCR2 = crate::Reg<tim7_ccr2::TIM7_CCR2_SPEC>;
#[doc = "TIM7 capture/compare register 2"]
pub mod tim7_ccr2;
#[doc = "TIM7_CCR3 register accessor: an alias for `Reg<TIM7_CCR3_SPEC>`"]
pub type TIM7_CCR3 = crate::Reg<tim7_ccr3::TIM7_CCR3_SPEC>;
#[doc = "TIM7 capture/compare register 3"]
pub mod tim7_ccr3;
#[doc = "TIM7_CCR4 register accessor: an alias for `Reg<TIM7_CCR4_SPEC>`"]
pub type TIM7_CCR4 = crate::Reg<tim7_ccr4::TIM7_CCR4_SPEC>;
#[doc = "TIM7 capture/compare register 4"]
pub mod tim7_ccr4;
#[doc = "TIM7_BDTR register accessor: an alias for `Reg<TIM7_BDTR_SPEC>`"]
pub type TIM7_BDTR = crate::Reg<tim7_bdtr::TIM7_BDTR_SPEC>;
#[doc = "As the bits BK2BID, BKBID, BK2DSRM, BKDSRM, BK2P, BK2E, BK2F\\[3:0\\], BKF\\[3:0\\], AOE, BKP, BKE, OSSI, OSSR and DTG\\[7:0\\]
can be write-locked depending on the LOCK configuration, it can be necessary to configure all of them during the first write access to the TIMx_BDTR register."]
pub mod tim7_bdtr;
#[doc = "TIM7_DCR register accessor: an alias for `Reg<TIM7_DCR_SPEC>`"]
pub type TIM7_DCR = crate::Reg<tim7_dcr::TIM7_DCR_SPEC>;
#[doc = "TIM7 DMA control register"]
pub mod tim7_dcr;
#[doc = "TIM7_DMAR register accessor: an alias for `Reg<TIM7_DMAR_SPEC>`"]
pub type TIM7_DMAR = crate::Reg<tim7_dmar::TIM7_DMAR_SPEC>;
#[doc = "TIM7 DMA address for full transfer"]
pub mod tim7_dmar;
#[doc = "TIM7_CCMR3 register accessor: an alias for `Reg<TIM7_CCMR3_SPEC>`"]
pub type TIM7_CCMR3 = crate::Reg<tim7_ccmr3::TIM7_CCMR3_SPEC>;
#[doc = "The channels 5 and 6 can only be configured in output. Output compare mode:"]
pub mod tim7_ccmr3;
#[doc = "TIM7_CCR5 register accessor: an alias for `Reg<TIM7_CCR5_SPEC>`"]
pub type TIM7_CCR5 = crate::Reg<tim7_ccr5::TIM7_CCR5_SPEC>;
#[doc = "TIM7 capture/compare register 5"]
pub mod tim7_ccr5;
#[doc = "TIM7_CCR6 register accessor: an alias for `Reg<TIM7_CCR6_SPEC>`"]
pub type TIM7_CCR6 = crate::Reg<tim7_ccr6::TIM7_CCR6_SPEC>;
#[doc = "TIM7 capture/compare register 6"]
pub mod tim7_ccr6;