/* * Copyright (c) 2015, Freescale Semiconductor, Inc. * Copyright 2016-2019, 2021, 2023 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_slcd.h" /******************************************************************************* * Definitions ******************************************************************************/ /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.slcd" #endif #define SLCD_WAVEFORM_CONFIG_NUM 16U /******************************************************************************* * Prototypes ******************************************************************************/ /*! * @brief Get the SLCD instance from peripheral base address. * * @param base SLCD peripheral base address. * @return SLCD instance. */ static uint32_t SLCD_GetInstance(LCD_Type *base); /******************************************************************************* * Variables ******************************************************************************/ #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /*! @brief Pointers to slcd clocks for each instance. */ static const clock_ip_name_t s_slcdClock[FSL_FEATURE_SOC_SLCD_COUNT] = SLCD_CLOCKS; #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ /*! @brief Pointers to slcd bases for each instance. */ static LCD_Type *const s_slcdBases[] = LCD_BASE_PTRS; /******************************************************************************* * Code ******************************************************************************/ static uint32_t SLCD_GetInstance(LCD_Type *base) { uint32_t instance; /* Find the instance index from base address mappings. */ for (instance = 0; instance < ARRAY_SIZE(s_slcdBases); instance++) { if (s_slcdBases[instance] == base) { break; } } assert(instance < ARRAY_SIZE(s_slcdBases)); return instance; } /*! * brief Initializes the SLCD, ungates the module clock, initializes the power * setting, enables all used plane pins, and sets with interrupt and work mode * with the configuration. * * param base SLCD peripheral base address. * param configure SLCD configuration pointer. * For the configuration structure, many parameters have the default setting * and the SLCD_Getdefaultconfig() is provided to get them. Use it * verified for their applications. * The others have no default settings, such as "clkConfig", and must be provided * by the application before calling the SLCD_Init() API. */ void SLCD_Init(LCD_Type *base, slcd_config_t *configure) { assert(configure); assert(configure->clkConfig); uint32_t gcrReg = 0; bool intEnabled = false; uint32_t regNum = 0; uint32_t instance = SLCD_GetInstance(base); /* Bit mask of the LCD_GCR to modify in this function. */ uint32_t gcrMsk = 0; #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /* Un-gate the SLCD clock. */ CLOCK_EnableClock(s_slcdClock[instance]); #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ /* Configure general setting: power supply. */ gcrReg = LCD_GCR_RVEN((uint32_t)configure->powerSupply & 0x1U) | LCD_GCR_CPSEL(((uint32_t)configure->powerSupply >> 1U) & 0x1U) | LCD_GCR_VSUPPLY(((uint32_t)configure->powerSupply >> 2U) & 0x1U) | LCD_GCR_LADJ((uint32_t)configure->loadAdjust); /* Configure general setting: clock source. */ gcrReg |= LCD_GCR_SOURCE(((uint32_t)configure->clkConfig->clkSource) & 0x1U) | LCD_GCR_LCLK(configure->clkConfig->clkPrescaler) | LCD_GCR_ALTDIV(configure->clkConfig->altClkDivider); /* Configure the duty and set the work for low power wait and stop mode. */ gcrReg |= LCD_GCR_DUTY(configure->dutyCycle) | LCD_GCR_LCDSTP((uint32_t)configure->lowPowerBehavior & 0x1U); gcrMsk = LCD_GCR_RVEN_MASK | LCD_GCR_CPSEL_MASK | LCD_GCR_VSUPPLY_MASK | LCD_GCR_LADJ_MASK | LCD_GCR_SOURCE_MASK | LCD_GCR_LCLK_MASK | LCD_GCR_ALTDIV_MASK | LCD_GCR_DUTY_MASK | LCD_GCR_LCDSTP_MASK; #if FSL_FEATURE_SLCD_HAS_LCD_WAIT gcrReg |= LCD_GCR_LCDWAIT(((uint32_t)configure->lowPowerBehavior >> 1U) & 0x1U); gcrMsk |= LCD_GCR_LCDWAIT_MASK; #endif #if FSL_FEATURE_SLCD_HAS_LCD_DOZE_ENABLE gcrReg |= LCD_GCR_LCDDOZE(((uint32_t)configure->lowPowerBehavior >> 1U) & 0x1U); gcrMsk |= LCD_GCR_LCDDOZE_MASK; #endif #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT /* Configure for frame frequency interrupt. */ gcrReg |= LCD_GCR_LCDIEN(configure->frameFreqIntEnable); gcrMsk |= LCD_GCR_LCDIEN_MASK; #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ #if FSL_FEATURE_SLCD_HAS_MULTI_ALTERNATE_CLOCK_SOURCE /* Select the alternate clock for alternate clock source. */ gcrReg |= LCD_GCR_ALTSOURCE((((uint32_t)configure->clkConfig->clkSource) >> 1U) & 0x1U); gcrMsk |= LCD_GCR_ALTSOURCE_MASK; #endif /* FSL_FEATURE_SLCD_HAS_MULTI_ALTERNATE_CLOCK_SOURCE */ #if FSL_FEATURE_SLCD_HAS_FAST_FRAME_RATE /* Configure the for fast frame rate. */ gcrReg |= LCD_GCR_FFR(configure->clkConfig->fastFrameRateEnable ? 1U : 0U); gcrMsk |= LCD_GCR_FFR_MASK; #endif /* FSL_FEATURE_SLCD_HAS_FAST_FRAME_RATE */ gcrReg |= LCD_GCR_RVTRIM(configure->voltageTrim); gcrMsk |= LCD_GCR_RVTRIM_MASK; base->GCR = (base->GCR & ~gcrMsk) | gcrReg; /* Set display mode. */ base->AR = LCD_AR_ALT((uint32_t)configure->displayMode & 0x1U) | LCD_AR_BLANK(((uint32_t)configure->displayMode >> 1U) & 0x1U); /* Configure the front plane and back plane pin setting. */ base->BPEN[0] = configure->backPlaneLowPin; base->BPEN[1] = configure->backPlaneHighPin; base->PEN[0] = configure->slcdLowPinEnabled; base->PEN[1] = configure->slcdHighPinEnabled; /* Set the fault frame detection. */ base->FDCR = 0; if (NULL != configure->faultConfig) { /* If fault configure structure is not NULL, the fault detection is enabled. */ base->FDCR = LCD_FDCR_FDPRS(configure->faultConfig->faultPrescaler) | LCD_FDCR_FDSWW(configure->faultConfig->width) | LCD_FDCR_FDBPEN(configure->faultConfig->faultDetectBackPlaneEnable ? 1U : 0U) | LCD_FDCR_FDPINID(configure->faultConfig->faultDetectPinIndex) | LCD_FDCR_FDEN_MASK; if (configure->faultConfig->faultDetectIntEnable) { base->GCR |= LCD_GCR_FDCIEN_MASK; intEnabled = true; } } /* Initialize the Waveform. */ for (regNum = 0; regNum < SLCD_WAVEFORM_CONFIG_NUM; regNum++) { base->WF[regNum] = 0; } /* Enable the NVIC. */ #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT if (configure->frameFreqIntEnable) { intEnabled = true; } #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ if (intEnabled) { (void)EnableIRQ(LCD_IRQn); } } /*! * brief Deinitializes the SLCD module, gates the module clock, disables an interrupt, * and displays the SLCD. * * param base SLCD peripheral base address. */ void SLCD_Deinit(LCD_Type *base) { uint32_t instance = SLCD_GetInstance(base); /* Stop SLCD display. */ SLCD_StopDisplay(base); #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /* Gate the SLCD clock. */ CLOCK_DisableClock(s_slcdClock[instance]); #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ /* Disable NVIC. */ (void)DisableIRQ(LCD_IRQn); } /*! * brief Gets the SLCD default configuration structure. The * purpose of this API is to get default parameters of the configuration structure * for the SLCD_Init(). Use these initialized parameters unchanged in SLCD_Init() * or modify fields of the structure before the calling SLCD_Init(). * All default parameters of the configure structuration are listed. * code config.displayMode = kSLCD_NormalMode; config.powerSupply = kSLCD_InternalVll3UseChargePump; config.voltageTrim = kSLCD_RegulatedVolatgeTrim00; config.lowPowerBehavior = kSLCD_EnabledInWaitStop; config.interruptSrc = 0; config.faultConfig = NULL; config.frameFreqIntEnable = false; endcode * param configure The SLCD configuration structure pointer. */ void SLCD_GetDefaultConfig(slcd_config_t *configure) { assert(configure); /* Initializes the configure structure to zero. */ (void)memset(configure, 0, sizeof(*configure)); /* Get Default parameters for the configuration structure. */ /* SLCD in normal mode. */ configure->displayMode = kSLCD_NormalMode; /* Power supply default: use charge pump to generate VLL1 and VLL2, VLL3 connected to VDD internally. */ configure->powerSupply = kSLCD_InternalVll3UseChargePump; configure->voltageTrim = kSLCD_RegulatedVolatgeTrim08; /* Work in low power mode. */ configure->lowPowerBehavior = kSLCD_EnabledInWaitStop; #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT /* No interrupt source is enabled. */ configure->frameFreqIntEnable = false; #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ /* Fault detection is disabled. */ configure->faultConfig = NULL; } /*! * brief Starts the SLCD blink mode. * * param base SLCD peripheral base address. * param mode SLCD blink mode. * param rate SLCD blink rate. */ void SLCD_StartBlinkMode(LCD_Type *base, slcd_blink_mode_t mode, slcd_blink_rate_t rate) { uint32_t mask = LCD_AR_BMODE_MASK | LCD_AR_BRATE_MASK; uint32_t arReg = base->AR; #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT mask |= LCD_AR_LCDIF_MASK; #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ arReg &= ~mask; /* Set blink mode and blink rate. */ arReg |= LCD_AR_BMODE(mode) | LCD_AR_BRATE(rate); base->AR = arReg; /* Enable Blink after setting the blink rate to meet some hardware requirement. */ arReg |= LCD_AR_BLINK_MASK; base->AR = arReg; } /*! * brief Enables the SLCD interrupt. * For example, to enable fault detect complete interrupt and frame frequency interrupt, * for FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT enabled case, do the following. * code * SLCD_EnableInterrupts(LCD,kSLCD_FaultDetectCompleteInterrupt | kSLCD_FrameFreqInterrupt); * endcode * * param base SLCD peripheral base address. * param mask SLCD interrupts to enable. This is a logical OR of the * enumeration :: slcd_interrupt_enable_t. */ void SLCD_EnableInterrupts(LCD_Type *base, uint32_t mask) { uint32_t gcReg = base->GCR; gcReg |= LCD_GCR_FDCIEN(mask & 0x1U); #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT gcReg |= LCD_GCR_LCDIEN((mask >> 1U) & 0x1U); #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ base->GCR = gcReg; } /*! * brief Disables the SLCD interrupt. * For example, to disable fault detect complete interrupt and frame frequency interrupt, * for FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT enabled case, do the following. * code * SLCD_DisableInterrupts(LCD,kSLCD_FaultDetectCompleteInterrupt | kSLCD_FrameFreqInterrupt); * endcode * * param base SLCD peripheral base address. * param mask SLCD interrupts to disable. This is a logical OR of the * enumeration :: slcd_interrupt_enable_t. */ void SLCD_DisableInterrupts(LCD_Type *base, uint32_t mask) { uint32_t gcrReg = base->GCR; /*!< SLCD fault detection complete interrupt source. */ if (0U != (mask & (uint32_t)kSLCD_FaultDetectCompleteInterrupt)) { gcrReg &= ~LCD_GCR_FDCIEN_MASK; } /*!< SLCD frame frequency interrupt source. */ #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT if (0U != (mask & (uint32_t)kSLCD_FrameFreqInterrupt)) { gcrReg &= ~LCD_GCR_LCDIEN_MASK; } #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ base->GCR = gcrReg; } /*! * brief Clears the SLCD interrupt events status flag. * * param base SLCD peripheral base address. * param mask SLCD interrupt source to be cleared. * This is the logical OR of members of the enumeration :: slcd_interrupt_enable_t. */ void SLCD_ClearInterruptStatus(LCD_Type *base, uint32_t mask) { /*!< SLCD fault detection complete interrupt source. */ if (0U != (mask & (uint32_t)kSLCD_FaultDetectCompleteInterrupt)) { base->FDSR |= LCD_FDSR_FDCF_MASK; } /*!< SLCD frame frequency interrupt source. */ #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT if (0U != (mask & (uint32_t)kSLCD_FrameFreqInterrupt)) { base->AR |= LCD_AR_LCDIF_MASK; } #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ } /*! * brief Gets the SLCD interrupt status flag. * * param base SLCD peripheral base address. * return The event status of the interrupt source. This is the logical OR of members * of the enumeration :: slcd_interrupt_enable_t. */ uint32_t SLCD_GetInterruptStatus(LCD_Type *base) { uint32_t status = 0; /* Get the frame detect complete interrupt status. */ status = ((base->FDSR & LCD_FDSR_FDCF_MASK) >> LCD_FDSR_FDCF_SHIFT); #if FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT /* Get the frame frequency interrupt status. */ status |= ((base->AR & LCD_AR_LCDIF_MASK) >> (LCD_AR_LCDIF_SHIFT - 1U)); #endif /* FSL_FEATURE_SLCD_HAS_FRAME_FREQUENCY_INTERRUPT */ return status; }