Renesas
Video library for GR-PEACH
Dependents: Trace_Program2 GR-PEACH_Camera_in_barcode GR-PEACH_LCD_sample GR-PEACH_LCD_4_3inch_sample ... more
Video library for GR-PEACH.
Hello World!
Import programGR-PEACH_Camera_in
Camera in sample for GR-PEACH. This sample works on GR-LYCHEE besides GR-PEACH.
Last commit 28 Dec 2018 by 
Renesas
API
Import library
Interface
See the Pinout page for more details
drivers/vdc5/include/r_vdc5.h
- Committer:
- dkato
- Date:
- 2016-06-30
- Revision:
- 4:aeefe5171463
- Parent:
- 0:853f5b7408a7
File content as of revision 4:aeefe5171463:
/*******************************************************************************
* DISCLAIMER
* This software is supplied by Renesas Electronics Corporation and is only
* intended for use with Renesas products. No other uses are authorized. This
* software is owned by Renesas Electronics Corporation and is protected under
* all applicable laws, including copyright laws.
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING
* THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT
* LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE
* AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.
* TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS
* ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE
* FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR
* ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE
* BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
* Renesas reserves the right, without notice, to make changes to this software
* and to discontinue the availability of this software. By using this software,
* you agree to the additional terms and conditions found by accessing the
* following link:
* http://www.renesas.com/disclaimer
* Copyright (C) 2012 - 2015 Renesas Electronics Corporation. All rights reserved.
*******************************************************************************/
/**************************************************************************//**
* @file r_vdc5.h
* @version 1.00
* $Rev: 199 $
* $Date:: 2014-05-23 16:33:52 +0900#$
* @brief VDC5 driver API definitions
******************************************************************************/
#ifndef R_VDC5_H
#define R_VDC5_H
/******************************************************************************
Includes <System Includes> , "Project Includes"
******************************************************************************/
#include "r_vdc5_user.h"
#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */
/******************************************************************************
Macro definitions
******************************************************************************/
#define VDC5_GAM_GAIN_ADJ_NUM (32u) /*!< The number of the gamma correction gain coefficient */
#define VDC5_GAM_START_TH_NUM (31u) /*!< The number of the gamma correction start threshold */
/******************************************************************************
Typedef definitions
******************************************************************************/
/*! Error codes of the VDC5 driver */
typedef enum {
VDC5_OK = 0, /*!< Normal termination */
VDC5_ERR_PARAM_CHANNEL, /*!< Invalid channel error (parameter error): An illegal channel is specified. */
VDC5_ERR_PARAM_LAYER_ID, /*!< Invalid layer ID error (parameter error): An illegal layer ID is specified. */
VDC5_ERR_PARAM_NULL, /*!< NULL specification error (parameter error):
NULL is specified for a required parameter. */
VDC5_ERR_PARAM_BIT_WIDTH, /*!< Bit width error (parameter error):
A value exceeding the possible bit width is specified. */
VDC5_ERR_PARAM_UNDEFINED, /*!< Undefined parameter error (parameter error):
A value that is not defined in the specification is specified. */
VDC5_ERR_PARAM_EXCEED_RANGE,/*!< Out-of-value-range error (parameter error):
The specified parameter value is beyond the value range defined
in the specification. */
VDC5_ERR_PARAM_CONDITION, /*!< Unauthorized condition error (parameter error):
A parameter is specified under conditions that are not authorized
by the specification. */
VDC5_ERR_IF_CONDITION, /*!< Interface condition error (interface error):
An API function is called under unauthorized conditions. */
VDC5_ERR_RESOURCE_CLK, /*!< Clock resource error (resource error): No panel clock is set up. */
VDC5_ERR_RESOURCE_VSYNC, /*!< Vsync signal resource error (resource error): No Vsync signal is set up. */
VDC5_ERR_RESOURCE_INPUT, /*!< Input signal resource error (resource error): No video image input is set up. */
VDC5_ERR_RESOURCE_OUTPUT, /*!< Output resource error (resource error): No display output is set up. */
VDC5_ERR_RESOURCE_LVDS_CLK, /*!< LVDS clock resource error (resource error):
An attempt is made to use the LVDS clock without setting it up,
or the LVDS clock is specified when it is already set up. */
VDC5_ERR_RESOURCE_LAYER, /*!< Layer resource error (resource error):
The specified layer is under unavailable conditions. */
VDC5_ERR_NUM /*!< The number of error codes */
} vdc5_error_t;
/*! VDC5 channels */
typedef enum {
VDC5_CHANNEL_0 = 0, /*!< Channel 0 */
VDC5_CHANNEL_1, /*!< Channel 1 */
VDC5_CHANNEL_NUM /*!< The number of channels */
} vdc5_channel_t;
/*! On/off */
typedef enum {
VDC5_OFF = 0, /*!< Off */
VDC5_ON = 1 /*!< On */
} vdc5_onoff_t;
/*! Edge of a signal */
typedef enum {
VDC5_EDGE_RISING = 0, /*!< Rising edge */
VDC5_EDGE_FALLING = 1 /*!< Falling edge */
} vdc5_edge_t;
/*! Polarity of a signal */
typedef enum {
VDC5_SIG_POL_NOT_INVERTED = 0, /*!< Not inverted */
VDC5_SIG_POL_INVERTED = 1 /*!< Inverted */
} vdc5_sig_pol_t;
/*! Scaling type ID */
typedef enum {
VDC5_SC_TYPE_SC0 = 0, /*!< Scaler 0 */
VDC5_SC_TYPE_SC1, /*!< Scaler 1 */
VDC5_SC_TYPE_OIR, /*!< Output image generator (OIR) */
VDC5_SC_TYPE_NUM /*!< The number of scaler types */
} vdc5_scaling_type_t;
/*! Graphics type ID */
typedef enum {
VDC5_GR_TYPE_GR0 = 0, /*!< Graphics 0 */
VDC5_GR_TYPE_GR1, /*!< Graphics 1 */
VDC5_GR_TYPE_GR2, /*!< Graphics 2 */
VDC5_GR_TYPE_GR3, /*!< Graphics 3 */
VDC5_GR_TYPE_VIN, /*!< VIN synthesizer */
VDC5_GR_TYPE_OIR, /*!< Output image generator (OIR) */
VDC5_GR_TYPE_NUM /*!< The number of graphics types */
} vdc5_graphics_type_t;
/*! Layer ID */
typedef enum {
VDC5_LAYER_ID_ALL = -1, /*!< All layers */
VDC5_LAYER_ID_0_WR = (VDC5_SC_TYPE_SC0 + 0), /*!< Write process for layer 0 */
VDC5_LAYER_ID_1_WR = (VDC5_SC_TYPE_SC1 + 0), /*!< Write process for layer 1 */
VDC5_LAYER_ID_OIR_WR = (VDC5_SC_TYPE_OIR + 0), /*!< Write process for layer OIR */
VDC5_LAYER_ID_0_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_GR0), /*!< Read process for layer 0 */
VDC5_LAYER_ID_1_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_GR1), /*!< Read process for layer 1 */
VDC5_LAYER_ID_2_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_GR2), /*!< Read process for layer 2 */
VDC5_LAYER_ID_3_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_GR3), /*!< Read process for layer 3 */
VDC5_LAYER_ID_VIN_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_VIN), /*!< VIN synthesizer */
VDC5_LAYER_ID_OIR_RD = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_OIR), /*!< Read process for layer OIR */
VDC5_LAYER_ID_NUM = (VDC5_SC_TYPE_NUM + VDC5_GR_TYPE_NUM) /*!< The number of layer IDs */
} vdc5_layer_id_t;
/*! The horizontal/vertical timing of the VDC5 signals */
typedef struct {
uint16_t vs; /*!< Vertical signal start position from the reference signal */
uint16_t vw; /*!< Vertical signal width (height) */
uint16_t hs; /*!< Horizontal signal start position from the reference signal */
uint16_t hw; /*!< Horizontal signal width */
} vdc5_period_rect_t;
/*! The relative position within the graphics display area */
typedef struct {
uint16_t vs_rel; /*!< Vertical start position */
uint16_t vw_rel; /*!< Vertical width (height) */
uint16_t hs_rel; /*!< Horizontal start position */
uint16_t hw_rel; /*!< Horizontal width */
} vdc5_pd_disp_rect_t;
/*********************** For R_VDC5_Initialize ***********************/
/*! Panel clock select */
typedef enum {
VDC5_PANEL_ICKSEL_IMG = 0, /*!< Divided video image clock (VIDEO_X1) */
VDC5_PANEL_ICKSEL_IMG_DV, /*!< Divided video image clock (DV_CLK) */
VDC5_PANEL_ICKSEL_EXT_0, /*!< Divided external clock (LCD0_EXTCLK) */
VDC5_PANEL_ICKSEL_EXT_1, /*!< Divided external clock (LCD1_EXTCLK) */
VDC5_PANEL_ICKSEL_PERI, /*!< Divided peripheral clock 1 */
VDC5_PANEL_ICKSEL_LVDS, /*!< LVDS PLL clock */
VDC5_PANEL_ICKSEL_LVDS_DIV7, /*!< LVDS PLL clock divided by 7 */
VDC5_PANEL_ICKSEL_NUM /*!< The number of panel clock select settings */
} vdc5_panel_clksel_t;
/*! Clock frequency division ratio */
typedef enum {
VDC5_PANEL_CLKDIV_1_1 = 0, /*!< Division Ratio 1/1 */
VDC5_PANEL_CLKDIV_1_2, /*!< Division Ratio 1/2 */
VDC5_PANEL_CLKDIV_1_3, /*!< Division Ratio 1/3 */
VDC5_PANEL_CLKDIV_1_4, /*!< Division Ratio 1/4 */
VDC5_PANEL_CLKDIV_1_5, /*!< Division Ratio 1/5 */
VDC5_PANEL_CLKDIV_1_6, /*!< Division Ratio 1/6 */
VDC5_PANEL_CLKDIV_1_7, /*!< Division Ratio 1/7 */
VDC5_PANEL_CLKDIV_1_8, /*!< Division Ratio 1/8 */
VDC5_PANEL_CLKDIV_1_9, /*!< Division Ratio 1/9 */
VDC5_PANEL_CLKDIV_1_12, /*!< Division Ratio 1/12 */
VDC5_PANEL_CLKDIV_1_16, /*!< Division Ratio 1/16 */
VDC5_PANEL_CLKDIV_1_24, /*!< Division Ratio 1/24 */
VDC5_PANEL_CLKDIV_1_32, /*!< Division Ratio 1/32 */
VDC5_PANEL_CLKDIV_NUM /*!< The number of division ratio settings */
} vdc5_panel_clk_dcdr_t;
/*! The clock input to frequency divider 1 */
typedef enum {
VDC5_LVDS_INCLK_SEL_IMG = 0, /*!< Video image clock (VIDEO_X1) */
VDC5_LVDS_INCLK_SEL_DV_0, /*!< Video image clock (DV0_CLK) */
VDC5_LVDS_INCLK_SEL_DV_1, /*!< Video image clock (DV1_CLK) */
VDC5_LVDS_INCLK_SEL_EXT_0, /*!< External clock (LCD0_EXTCLK) */
VDC5_LVDS_INCLK_SEL_EXT_1, /*!< External clock (LCD1_EXTCLK) */
VDC5_LVDS_INCLK_SEL_PERI, /*!< Peripheral clock 1 */
VDC5_LVDS_INCLK_SEL_NUM
} vdc5_lvds_in_clk_sel_t;
/*! The frequency dividing value (NIDIV or NODIV) */
typedef enum {
VDC5_LVDS_NDIV_1 = 0, /*!< Div 1 */
VDC5_LVDS_NDIV_2, /*!< Div 2 */
VDC5_LVDS_NDIV_4, /*!< Div 4 */
VDC5_LVDS_NDIV_NUM
} vdc5_lvds_ndiv_t;
/*! The frequency dividing value (NOD) for the output frequency */
typedef enum {
VDC5_LVDS_PLL_NOD_1 = 0, /*!< Div 1 */
VDC5_LVDS_PLL_NOD_2, /*!< Div 2 */
VDC5_LVDS_PLL_NOD_4, /*!< Div 4 */
VDC5_LVDS_PLL_NOD_8, /*!< Div 8 */
VDC5_LVDS_PLL_NOD_NUM
} vdc5_lvds_pll_nod_t;
/*! LVDS parameter */
typedef struct {
vdc5_lvds_in_clk_sel_t lvds_in_clk_sel;/*!< The clock input to frequency divider 1 */
vdc5_lvds_ndiv_t lvds_idiv_set; /*!< The frequency dividing value (NIDIV) for frequency divider 1 */
uint16_t lvdspll_tst; /*!< Internal parameter setting for LVDS PLL */
vdc5_lvds_ndiv_t lvds_odiv_set; /*!< The frequency dividing value (NODIV) for frequency divider 2 */
vdc5_channel_t lvds_vdc_sel; /*!< A channel in VDC5 whose data is to be output through the LVDS */
uint16_t lvdspll_fd; /*!< The frequency dividing value (NFD) for the feedback frequency */
uint16_t lvdspll_rd; /*!< The frequency dividing value (NRD) for the input frequency */
vdc5_lvds_pll_nod_t lvdspll_od; /*!< The frequency dividing value (NOD) for the output frequency */
} vdc5_lvds_t;
/*! Initialization parameter */
typedef struct {
vdc5_panel_clksel_t panel_icksel; /*!< Panel clock select */
vdc5_panel_clk_dcdr_t panel_dcdr; /*!< Clock frequency division ratio */
const vdc5_lvds_t * lvds; /*!< LVDS-related parameter */
} vdc5_init_t;
/*********************** For R_VDC5_VideoInput ***********************/
/*! Input select */
typedef enum {
VDC5_INPUT_SEL_VDEC = 0, /*!< Video decoder output signals */
VDC5_INPUT_SEL_EXT = 1 /*!< Signals supplied via the external input pins */
} vdc5_input_sel_t;
/*! Sync signal delay adjustment parameter */
typedef struct {
uint16_t inp_vs_dly_l; /*!< Number of lines for delaying Vsync signal and field differentiation signal */
uint16_t inp_fld_dly; /*!< Field differentiation signal delay amount */
uint16_t inp_vs_dly; /*!< Vsync signal delay amount */
uint16_t inp_hs_dly; /*!< Hsync signal delay amount */
} vdc5_sync_delay_t;
/*! External input format select */
typedef enum {
VDC5_EXTIN_FORMAT_RGB888 = 0, /*!< RGB888 */
VDC5_EXTIN_FORMAT_RGB666, /*!< RGB666 */
VDC5_EXTIN_FORMAT_RGB565, /*!< RGB565 */
VDC5_EXTIN_FORMAT_BT656, /*!< BT6556 */
VDC5_EXTIN_FORMAT_BT601, /*!< BT6501 */
VDC5_EXTIN_FORMAT_YCBCR422, /*!< YCbCr422 */
VDC5_EXTIN_FORMAT_YCBCR444, /*!< YCbCr444 */
VDC5_EXTIN_FORMAT_NUM
} vdc5_extin_format_t;
/*! Reference select for external input BT.656 Hsync signal */
typedef enum {
VDC5_EXTIN_REF_H_EAV = 0, /*!< EAV */
VDC5_EXTIN_REF_H_SAV = 1 /*!< SAV */
} vdc5_extin_ref_hsync_t;
/*! Number of lines for BT.656 external input */
typedef enum {
VDC5_EXTIN_LINE_525 = 0, /*!< 525 lines */
VDC5_EXTIN_LINE_625 = 1 /*!< 625 lines */
} vdc5_extin_input_line_t;
/*! Y/Cb/Y/Cr data string start timing */
typedef enum {
VDC5_EXTIN_H_POS_CBYCRY = 0, /*!< Cb/Y/Cr/Y (BT656/601), Cb/Cr (YCbCr422) */
VDC5_EXTIN_H_POS_YCRYCB, /*!< Y/Cr/Y/Cb (BT656/601), setting prohibited (YCbCr422) */
VDC5_EXTIN_H_POS_CRYCBY, /*!< Cr/Y/Cb/Y (BT656/601), setting prohibited (YCbCr422) */
VDC5_EXTIN_H_POS_YCBYCR, /*!< Y/Cb/Y/Cr (BT656/601), Cr/Cb (YCbCr422) */
VDC5_EXTIN_H_POS_NUM
} vdc5_extin_h_pos_t;
/*! External input signal parameter */
typedef struct {
vdc5_extin_format_t inp_format; /*!< External input format select */
vdc5_edge_t inp_pxd_edge; /*!< Clock edge select for capturing external input video image signals */
vdc5_edge_t inp_vs_edge; /*!< Clock edge select for capturing external input Vsync signals */
vdc5_edge_t inp_hs_edge; /*!< Clock edge select for capturing external input Hsync signals */
vdc5_onoff_t inp_endian_on; /*!< External input bit endian change on/off control */
vdc5_onoff_t inp_swap_on; /*!< External input B/R signal swap on/off control */
vdc5_sig_pol_t inp_vs_inv; /*!< External input Vsync signal DV_VSYNC inversion control */
vdc5_sig_pol_t inp_hs_inv; /*!< External input Hsync signal DV_HSYNC inversion control */
vdc5_extin_ref_hsync_t inp_h_edge_sel; /*!< Reference select for external input BT.656 Hsync signal */
vdc5_extin_input_line_t inp_f525_625; /*!< Number of lines for BT.656 external input */
vdc5_extin_h_pos_t inp_h_pos; /*!< Y/Cb/Y/Cr data string start timing to Hsync reference */
} vdc5_ext_in_sig_t;
/*! Video input setup parameter */
typedef struct {
vdc5_input_sel_t inp_sel; /*!< Input select */
uint16_t inp_fh50; /*!< Vsync signal 1/2fH phase timing */
uint16_t inp_fh25; /*!< Vsync signal 1/4fH phase timing */
const vdc5_sync_delay_t * dly; /*!< Sync signal delay adjustment parameter */
const vdc5_ext_in_sig_t * ext_sig; /*!< External input signal parameter */
} vdc5_input_t;
/*********************** For R_VDC5_SyncControl ***********************/
/*! Horizontal/vertical sync signal output and full-screen enable signal select */
typedef enum {
VDC5_RES_VS_IN_SEL_SC0 = 0, /*!< Sync signal output and full-screen enable signal from scaler 0 */
VDC5_RES_VS_IN_SEL_SC1 = 1 /*!< Sync signal output and full-screen enable signal from scaler 1 */
} vdc5_res_vs_in_sel_t;
/*! Vsync signal compensation parameter */
typedef struct {
uint16_t res_vmask; /*!< Repeated Vsync signal masking period */
uint16_t res_vlack; /*!< Missing-Sync compensating pulse output wait time */
} vdc5_vsync_cpmpe_t;
/*! Sync signal control parameter */
typedef struct {
vdc5_onoff_t res_vs_sel; /*!< Vsync signal output select (free-running Vsync on/off control) */
vdc5_res_vs_in_sel_t res_vs_in_sel; /*!< Horizontal/vertical sync signal output
and full-screen enable signal select */
uint16_t res_fv; /*!< Free-running Vsync period setting */
uint16_t res_fh; /*!< Hsync period setting */
uint16_t res_vsdly; /*!< Vsync signal delay control */
vdc5_period_rect_t res_f; /*!< Full-screen enable signal */
const vdc5_vsync_cpmpe_t * vsync_cpmpe; /*!< Vsync signal compensation parameter */
} vdc5_sync_ctrl_t;
/*********************** For R_VDC5_DisplayOutput ***********************/
/*! POLA/POLB signal generation mode select */
typedef enum {
VDC5_LCD_TCON_POLMD_NORMAL = 0, /*!< Normal mode */
VDC5_LCD_TCON_POLMD_1X1REV, /*!< 1x1 reverse mode */
VDC5_LCD_TCON_POLMD_1X2REV, /*!< 1x2 reverse mode */
VDC5_LCD_TCON_POLMD_2X2REV, /*!< 2x2 reverse mode */
VDC5_LCD_TCON_POLMD_NUM
} vdc5_lcd_tcon_polmode_t;
/*! Signal operating reference select */
typedef enum {
VDC5_LCD_TCON_REFSEL_HSYNC = 0, /*!< Hsync signal reference */
VDC5_LCD_TCON_REFSEL_OFFSET_H = 1 /*!< Offset Hsync signal reference */
} vdc5_lcd_tcon_refsel_t;
/*! LCD TCON output pin select */
typedef enum {
VDC5_LCD_TCON_PIN_NON = -1, /*!< Nothing output */
VDC5_LCD_TCON_PIN_0, /*!< LCD_TCON0 */
VDC5_LCD_TCON_PIN_1, /*!< LCD_TCON1 */
VDC5_LCD_TCON_PIN_2, /*!< LCD_TCON2 */
VDC5_LCD_TCON_PIN_3, /*!< LCD_TCON3 */
VDC5_LCD_TCON_PIN_4, /*!< LCD_TCON4 */
VDC5_LCD_TCON_PIN_5, /*!< LCD_TCON5 */
VDC5_LCD_TCON_PIN_6, /*!< LCD_TCON6 */
VDC5_LCD_TCON_PIN_NUM
} vdc5_lcd_tcon_pin_t;
/*! LCD TCON timing signal parameter */
typedef struct {
uint16_t tcon_hsvs; /*!< Signal pulse start position */
uint16_t tcon_hwvw; /*!< Pulse width */
vdc5_lcd_tcon_polmode_t tcon_md; /*!< POLA/POLB signal generation mode select */
vdc5_lcd_tcon_refsel_t tcon_hs_sel; /*!< Signal operating reference select */
vdc5_sig_pol_t tcon_inv; /*!< Polarity inversion control of signal */
vdc5_lcd_tcon_pin_t tcon_pin; /*!< LCD TCON output pin select */
vdc5_edge_t outcnt_edge; /*!< Output phase control of signal */
} vdc5_lcd_tcon_timing_t;
/*! Timing signals for driving the LCD panel */
typedef enum {
VDC5_LCD_TCONSIG_STVA_VS = 0, /*!< STVA/VS */
VDC5_LCD_TCONSIG_STVB_VE, /*!< STVB/VE */
VDC5_LCD_TCONSIG_STH_SP_HS, /*!< STH/SP/HS */
VDC5_LCD_TCONSIG_STB_LP_HE, /*!< STB/LP/HE */
VDC5_LCD_TCONSIG_CPV_GCK, /*!< CPV/GCK */
VDC5_LCD_TCONSIG_POLA, /*!< POLA */
VDC5_LCD_TCONSIG_POLB, /*!< POLB */
VDC5_LCD_TCONSIG_DE, /*!< DE */
VDC5_LCD_TCONSIG_NUM
} vdc5_lcd_tcon_sigsel_t;
/*! Output format select */
typedef enum {
VDC5_LCD_OUTFORMAT_RGB888 = 0, /*!< RGB888 */
VDC5_LCD_OUTFORMAT_RGB666, /*!< RGB666 */
VDC5_LCD_OUTFORMAT_RGB565, /*!< RGB565 */
VDC5_LCD_OUTFORMAT_SERIAL_RGB, /*!< Serial RGB */
VDC5_LCD_OUTFORMAT_NUM
} vdc5_lcd_outformat_t;
/*! Clock frequency control */
typedef enum {
VDC5_LCD_PARALLEL_CLKFRQ_1 = 0, /*!< 100% speed (parallel RGB) */
VDC5_LCD_SERIAL_CLKFRQ_3, /*!< Triple speed (serial RGB) */
VDC5_LCD_SERIAL_CLKFRQ_4, /*!< Quadruple speed (serial RGB) */
VDC5_LCD_SERIAL_CLKFRQ_NUM
} vdc5_lcd_clkfreqsel_t;
/*! Scan direction select */
typedef enum {
VDC5_LCD_SERIAL_SCAN_FORWARD = 0, /*!< Forward scan */
VDC5_LCD_SERIAL_SCAN_REVERSE = 1 /*!< Reverse scan */
} vdc5_lcd_scan_t;
/*! Clock phase adjustment for serial RGB output */
typedef enum {
VDC5_LCD_SERIAL_CLKPHASE_0 = 0, /*!< 0[clk] */
VDC5_LCD_SERIAL_CLKPHASE_1, /*!< 1[clk] */
VDC5_LCD_SERIAL_CLKPHASE_2, /*!< 2[clk] */
VDC5_LCD_SERIAL_CLKPHASE_3, /*!< 3[clk] */
VDC5_LCD_SERIAL_CLKPHASE_NUM
} vdc5_lcd_clkphase_t;
/*! Display output configuration parameter */
typedef struct {
uint16_t tcon_half; /*!< 1/2fH timing */
uint16_t tcon_offset; /*!< Offset Hsync signal timing */
const vdc5_lcd_tcon_timing_t * outctrl[VDC5_LCD_TCONSIG_NUM]; /*!< LCD TCON timing signal parameter */
vdc5_edge_t outcnt_lcd_edge; /*!< Output phase control of LCD_DATA23
to LCD_DATA0 pin */
vdc5_onoff_t out_endian_on; /*!< Bit endian change on/off control */
vdc5_onoff_t out_swap_on; /*!< B/R signal swap on/off control */
vdc5_lcd_outformat_t out_format; /*!< Output format select */
vdc5_lcd_clkfreqsel_t out_frq_sel; /*!< Clock frequency control */
vdc5_lcd_scan_t out_dir_sel; /*!< Scan direction select */
vdc5_lcd_clkphase_t out_phase; /*!< Clock phase adjustment
for serial RGB output */
uint32_t bg_color; /*!< Background color in 24-bit RGB color format */
} vdc5_output_t;
/*********************** For R_VDC5_CallbackISR ***********************/
/*! VDC5 interrupt type */
typedef enum {
VDC5_INT_TYPE_S0_VI_VSYNC = 0, /*!< Vsync signal input to scaler 0 */
VDC5_INT_TYPE_S0_LO_VSYNC, /*!< Vsync signal output from scaler 0 */
VDC5_INT_TYPE_S0_VSYNCERR, /*!< Missing Vsync signal for scaler 0 */
VDC5_INT_TYPE_VLINE, /*!< Specified line signal for panel output in graphics 3 */
VDC5_INT_TYPE_S0_VFIELD, /*!< Field end signal for recording function in scaler 0 */
VDC5_INT_TYPE_IV1_VBUFERR, /*!< Frame buffer write overflow signal for scaler 0 */
VDC5_INT_TYPE_IV3_VBUFERR, /*!< Frame buffer read underflow signal for graphics 0 */
VDC5_INT_TYPE_IV5_VBUFERR, /*!< Frame buffer read underflow signal for graphics 2 */
VDC5_INT_TYPE_IV6_VBUFERR, /*!< Frame buffer read underflow signal for graphics 3 */
VDC5_INT_TYPE_S0_WLINE, /*!< Write specification line signal input to scaling-down control block
in scaler 0 */
VDC5_INT_TYPE_S1_VI_VSYNC, /*!< Vsync signal input to scaler 1 */
VDC5_INT_TYPE_S1_LO_VSYNC, /*!< Vsync signal output from scaler 1 */
VDC5_INT_TYPE_S1_VSYNCERR, /*!< Missing Vsync signal for scaler 1 */
VDC5_INT_TYPE_S1_VFIELD, /*!< Field end signal for recording function in scaler 1 */
VDC5_INT_TYPE_IV2_VBUFERR, /*!< Frame buffer write overflow signal for scaler 1 */
VDC5_INT_TYPE_IV4_VBUFERR, /*!< Frame buffer read underflow signal for graphics 1 */
VDC5_INT_TYPE_S1_WLINE, /*!< Write specification line signal input to scaling-down control block
in scaler 1 */
VDC5_INT_TYPE_OIR_VI_VSYNC, /*!< Vsync signal input to output image generator */
VDC5_INT_TYPE_OIR_LO_VSYNC, /*!< Vsync signal output from output image generator */
VDC5_INT_TYPE_OIR_VLINE, /*!< Specified line signal for panel output in output image generator */
VDC5_INT_TYPE_OIR_VFIELD, /*!< Field end signal for recording function in output image generator */
VDC5_INT_TYPE_IV7_VBUFERR, /*!< Frame buffer write overflow signal for output image generator */
VDC5_INT_TYPE_IV8_VBUFERR, /*!< Frame buffer read underflow signal for graphics (OIR) */
VDC5_INT_TYPE_NUM /*!< The number of VDC5 interrupt types */
} vdc5_int_type_t;
/*! Interrupt callback setup parameter */
typedef struct {
vdc5_int_type_t type; /*!< VDC5 interrupt type */
void (* callback)(vdc5_int_type_t); /*!< Interrupt callback function pointer */
uint16_t line_num; /*!< Line interrupt set */
} vdc5_int_t;
/*********************** For R_VDC5_WriteDataControl ***********************/
/*! Frame buffer writing mode for image processing */
typedef enum {
VDC5_WR_MD_NORMAL = 0, /*!< Normal */
VDC5_WR_MD_MIRROR, /*!< Horizontal mirroring */
VDC5_WR_MD_ROT_90DEG, /*!< 90 degree rotation */
VDC5_WR_MD_ROT_180DEG, /*!< 180 degree rotation */
VDC5_WR_MD_ROT_270DEG, /*!< 270 degree rotation */
VDC5_WR_MD_NUM
} vdc5_wr_md_t;
/*! Scaling-down and rotation parameter */
typedef struct {
vdc5_period_rect_t res; /*!< Image area to be captured */
vdc5_onoff_t res_pfil_sel; /*!< Prefilter mode select for brightness signals (on/off) */
uint16_t res_out_vw; /*!< Number of valid lines in vertical direction
output by scaling-down control block */
uint16_t res_out_hw; /*!< Number of valid horizontal pixels
output by scaling-down control block */
vdc5_onoff_t adj_sel; /*!< Handling for lack of last-input line (on/off) */
vdc5_wr_md_t res_ds_wr_md; /*!< Frame buffer writing mode for image processing */
} vdc5_scalingdown_rot_t;
/*! Frame buffer swap setting */
typedef enum {
VDC5_WR_RD_WRSWA_NON = 0, /*!< Not swapped: 1-2-3-4-5-6-7-8 */
VDC5_WR_RD_WRSWA_8BIT, /*!< Swapped in 8-bit units: 2-1-4-3-6-5-8-7 */
VDC5_WR_RD_WRSWA_16BIT, /*!< Swapped in 16-bit units: 3-4-1-2-7-8-5-6 */
VDC5_WR_RD_WRSWA_16_8BIT, /*!< Swapped in 16-bit units + 8-bit units: 4-3-2-1-8-7-6-5 */
VDC5_WR_RD_WRSWA_32BIT, /*!< Swapped in 32-bit units: 5-6-7-8-1-2-3-4 */
VDC5_WR_RD_WRSWA_32_8BIT, /*!< Swapped in 32-bit units + 8-bit units: 6-5-8-7-2-1-4-3 */
VDC5_WR_RD_WRSWA_32_16BIT, /*!< Swapped in 32-bit units + 16-bit units: 7-8-5-6-3-4-1-2 */
VDC5_WR_RD_WRSWA_32_16_8BIT, /*!< Swapped in 32-bit units + 16-bit units + 8-bit units: 8-7-6-5-4-3-2-1 */
VDC5_WR_RD_WRSWA_NUM
} vdc5_wr_rd_swa_t;
/*! Frame buffer video-signal writing format */
typedef enum {
VDC5_RES_MD_YCBCR422 = 0, /*!< YCbCr422 */
VDC5_RES_MD_RGB565, /*!< RGB565 */
VDC5_RES_MD_RGB888, /*!< RGB888 */
VDC5_RES_MD_YCBCR444, /*!< YCbCr444 */
VDC5_RES_MD_NUM
} vdc5_res_md_t;
/*! Transfer burst length */
typedef enum {
VDC5_BST_MD_32BYTE = 0, /*!< 32-byte transfer (4 bursts) */
VDC5_BST_MD_128BYTE /*!< 128-byte transfer (16 bursts) */
} vdc5_bst_md_t;
/*! Field operating mode select */
typedef enum {
VDC5_RES_INTER_PROGRESSIVE = 0, /*!< Progressive */
VDC5_RES_INTER_INTERLACE = 1 /*!< Interlace */
} vdc5_res_inter_t;
/*! Writing rate */
typedef enum {
VDC5_RES_FS_RATE_PER1 = 0, /* 1/1 an input signal */
VDC5_RES_FS_RATE_PER2, /* 1/2 an input signal */
VDC5_RES_FS_RATE_PER4, /* 1/4 an input signal */
VDC5_RES_FS_RATE_PER8, /* 1/8 an input signal */
VDC5_RES_FS_RATE_NUM
} vdc5_res_fs_rate_t;
/*! Write field select */
typedef enum {
VDC5_RES_FLD_SEL_TOP = 0, /*!< Top field */
VDC5_RES_FLD_SEL_BOTTOM = 1 /*!< Bottom field */
} vdc5_res_fld_sel_t;
/*! Data write control parameter */
typedef struct {
vdc5_scalingdown_rot_t scalingdown_rot;/*!< Scaling-down and rotation parameter */
vdc5_wr_rd_swa_t res_wrswa; /*!< Swap setting in frame buffer writing */
vdc5_res_md_t res_md; /*!< Frame buffer video-signal writing format */
vdc5_bst_md_t res_bst_md; /*!< Transfer burst length for frame buffer writing */
vdc5_res_inter_t res_inter; /*!< Field operating mode select */
vdc5_res_fs_rate_t res_fs_rate; /*!< Writing rate */
vdc5_res_fld_sel_t res_fld_sel; /*!< Write field select */
vdc5_onoff_t res_dth_on; /*!< Dither correction on/off */
void * base; /*!< Frame buffer base address */
uint32_t ln_off; /*!< Frame buffer line offset address [byte] */
uint32_t flm_num; /*!< Number of frames of buffer to be written to (res_flm_num + 1) */
uint32_t flm_off; /*!< Frame buffer frame offset address [byte] */
void * btm_base; /*!< Frame buffer base address for bottom */
} vdc5_write_t;
/*********************** For R_VDC5_ChangeWriteProcess ***********************/
/*! Data write change parameter */
typedef struct {
vdc5_scalingdown_rot_t scalingdown_rot;/*!< Scaling-down and rotation parameter */
} vdc5_write_chg_t;
/*********************** For R_VDC5_ReadDataControl ***********************/
/*! Line offset address direction of the frame buffer */
typedef enum {
VDC5_GR_LN_OFF_DIR_INC = 0, /*!< Increments the address by the line offset address */
VDC5_GR_LN_OFF_DIR_DEC /*!< Decrements the address by the line offset address */
} vdc5_gr_ln_off_dir_t;
/*! Frame buffer address setting signal */
typedef enum {
VDC5_GR_FLM_SEL_SCALE_DOWN = 0, /*!< Links to scaling-down process */
VDC5_GR_FLM_SEL_FLM_NUM, /*!< Selects frame 0 (graphics display) */
VDC5_GR_FLM_SEL_DISTORTION, /*!< Links to distortion correction */
VDC5_GR_FLM_SEL_POINTER_BUFF, /*!< Links to pointer buffer */
VDC5_GR_FLM_SEL_NUM
} vdc5_gr_flm_sel_t;
/*! Size of the frame buffer to be read */
typedef struct {
uint16_t in_vw; /*!< Number of lines in a frame */
uint16_t in_hw; /*!< Width of the horizontal valid period */
} vdc5_width_read_fb_t;
/*! Format of the frame buffer read signal */
typedef enum {
VDC5_GR_FORMAT_RGB565 = 0, /*!< RGB565 */
VDC5_GR_FORMAT_RGB888, /*!< RGB888 */
VDC5_GR_FORMAT_ARGB1555, /*!< ARGB1555 */
VDC5_GR_FORMAT_ARGB4444, /*!< ARGB4444 */
VDC5_GR_FORMAT_ARGB8888, /*!< ARGB8888 */
VDC5_GR_FORMAT_CLUT8, /*!< CLUT8 */
VDC5_GR_FORMAT_CLUT4, /*!< CLUT4 */
VDC5_GR_FORMAT_CLUT1, /*!< CLUT1 */
VDC5_GR_FORMAT_YCBCR422, /*!< YCbCr422: This setting is prohibited for the graphics 2 and 3 */
VDC5_GR_FORMAT_YCBCR444, /*!< YCbCr444: This setting is prohibited for the graphics 2 and 3 */
VDC5_GR_FORMAT_RGBA5551, /*!< RGBA5551 */
VDC5_GR_FORMAT_RGBA8888, /*!< RGBA8888 */
VDC5_GR_FORMAT_NUM /*!< The number of signal formats */
} vdc5_gr_format_t;
/*! Swapping of data read from buffer in the YCbCr422 format */
typedef enum {
VDC5_GR_YCCSWAP_CBY0CRY1 = 0,
VDC5_GR_YCCSWAP_Y0CBY1CR,
VDC5_GR_YCCSWAP_CRY0CBY1,
VDC5_GR_YCCSWAP_Y0CRY1CB,
VDC5_GR_YCCSWAP_Y1CRY0CB,
VDC5_GR_YCCSWAP_CRY1CBY0,
VDC5_GR_YCCSWAP_Y1CBY0CR,
VDC5_GR_YCCSWAP_CBY1CRY0,
VDC5_GR_YCCSWAP_NUM
} vdc5_gr_ycc_swap_t;
/*! Data read control parameter */
typedef struct {
vdc5_gr_ln_off_dir_t gr_ln_off_dir; /*!< Line offset address direction of the frame buffer */
vdc5_gr_flm_sel_t gr_flm_sel; /*!< Frame buffer address setting signal */
vdc5_onoff_t gr_imr_flm_inv; /*!< Frame buffer number for distortion correction */
vdc5_bst_md_t gr_bst_md; /*!< Frame buffer burst transfer mode */
void * gr_base; /*!< Frame buffer base address */
uint32_t gr_ln_off; /*!< Frame buffer line offset address */
const vdc5_width_read_fb_t * width_read_fb; /*!< Size of the frame buffer to be read */
vdc5_onoff_t adj_sel; /*!< Folding handling (on/off) */
vdc5_gr_format_t gr_format; /*!< Format of the frame buffer read signal */
vdc5_gr_ycc_swap_t gr_ycc_swap; /*!< Swapping of data read from buffer
in the YCbCr422 format */
vdc5_wr_rd_swa_t gr_rdswa; /*!< Swap setting in frame buffer reading */
vdc5_period_rect_t gr_grc; /*!< Graphics display area */
} vdc5_read_t;
/******************************* For R_VDC5_ChangeReadProcess *******************************/
/*! The type of graphics display modes */
typedef enum {
VDC5_DISPSEL_IGNORED = -1, /*!< Ignored */
VDC5_DISPSEL_BACK = 0, /*!< Background color display */
VDC5_DISPSEL_LOWER = 1, /*!< Lower-layer graphics display */
VDC5_DISPSEL_CURRENT = 2, /*!< Current graphics display */
VDC5_DISPSEL_BLEND = 3, /*!< Blended display of lower-layer graphics and current graphics */
VDC5_DISPSEL_NUM = 4 /*!< The number of graphics display modes */
} vdc5_gr_disp_sel_t;
/*! Data read change parameter */
typedef struct {
void * gr_base; /*!< Frame buffer base address */
const vdc5_width_read_fb_t * width_read_fb; /*!< Size of the frame buffer to be read */
const vdc5_period_rect_t * gr_grc; /*!< Graphics display area */
const vdc5_gr_disp_sel_t * gr_disp_sel; /*!< Graphics display mode */
} vdc5_read_chg_t;
/******************************* For R_VDC5_StartProcess *******************************/
/*! Data write/read start parameter */
typedef struct {
const vdc5_gr_disp_sel_t * gr_disp_sel; /*!< Graphics display mode */
} vdc5_start_t;
/******************************* For R_VDC5_VideoNoiseReduction *******************************/
/*! TAP select */
typedef enum {
VDC5_NR_TAPSEL_1 = 0, /*!< Adjacent pixel */
VDC5_NR_TAPSEL_2, /*!< 2 adjacent pixels */
VDC5_NR_TAPSEL_3, /*!< 3 adjacent pixels */
VDC5_NR_TAPSEL_4, /*!< 4 adjacent pixels */
VDC5_NR_TAPSEL_NUM
} vdc5_nr_tap_t;
/*! Noise reduction gain adjustment */
typedef enum {
VDC5_NR_GAIN_1_2 = 0, /*!< 1/2 */
VDC5_NR_GAIN_1_4, /*!< 1/4 */
VDC5_NR_GAIN_1_8, /*!< 1/8 */
VDC5_NR_GAIN_1_16, /*!< 1/16 */
VDC5_NR_GAIN_NUM
} vdc5_nr_gain_t;
/*! Noise reduction parameter */
typedef struct {
vdc5_nr_tap_t nr1d_tap; /*!< TAP select */
uint32_t nr1d_th; /*!< Maximum value of coring (absolute value) */
vdc5_nr_gain_t nr1d_gain; /*!< Noise reduction gain adjustment */
} vdc5_nr_param_t;
/*! Noise reduction setup parameter */
typedef struct {
vdc5_nr_param_t y; /*!< Y/G signal noise reduction parameter */
vdc5_nr_param_t cb; /*!< Cb/B signal noise reduction parameter */
vdc5_nr_param_t cr; /*!< Cr/R signal noise reduction parameter */
} vdc5_noise_reduction_t;
/******************************* For R_VDC5_ImageColorMatrix *******************************/
/*! Color matrix module */
typedef enum {
VDC5_COLORMTX_IMGCNT = 0, /*!< Input Controller (input video signal) */
VDC5_COLORMTX_ADJ_0, /*!< Image quality improver 0 (scaler 0 output) */
VDC5_COLORMTX_ADJ_1, /*!< Image quality improver 1 (scaler 1 output) */
VDC5_COLORMTX_NUM
} vdc5_colormtx_module_t;
/*! Operating mode */
typedef enum {
VDC5_COLORMTX_GBR_GBR = 0, /*!< GBR to GBR */
VDC5_COLORMTX_GBR_YCBCR, /*!< GBR to YCbCr */
VDC5_COLORMTX_YCBCR_GBR, /*!< YCbCr to GBR */
VDC5_COLORMTX_YCBCR_YCBCR, /*!< YCbCr to YCbCr */
VDC5_COLORMTX_MODE_NUM /*!< The number of operating modes */
} vdc5_colormtx_mode_t;
/*! Color matrix offset (DC) adjustment */
typedef enum {
VDC5_COLORMTX_OFFST_YG = 0, /*!< YG */
VDC5_COLORMTX_OFFST_B, /*!< B */
VDC5_COLORMTX_OFFST_R, /*!< R */
VDC5_COLORMTX_OFFST_NUM /*!< The number of the color matrix DC offset values */
} vdc5_colormtx_offset_t;
/*! Color matrix signal gain adjustment */
typedef enum {
VDC5_COLORMTX_GAIN_GG = 0, /*!< GG */
VDC5_COLORMTX_GAIN_GB, /*!< GB */
VDC5_COLORMTX_GAIN_GR, /*!< GR */
VDC5_COLORMTX_GAIN_BG, /*!< BG */
VDC5_COLORMTX_GAIN_BB, /*!< BB */
VDC5_COLORMTX_GAIN_BR, /*!< BR */
VDC5_COLORMTX_GAIN_RG, /*!< RG */
VDC5_COLORMTX_GAIN_RB, /*!< RB */
VDC5_COLORMTX_GAIN_RR, /*!< RR */
VDC5_COLORMTX_GAIN_NUM /*!< The number of the color matrix gain values */
} vdc5_colormtx_gain_t;
/*! Color matrix setup parameter */
typedef struct {
vdc5_colormtx_module_t module; /*!< Color matrix module */
vdc5_colormtx_mode_t mtx_mode; /*!< Operating mode */
uint16_t offset[VDC5_COLORMTX_OFFST_NUM];/*!< Offset (DC) adjustment of Y/G, B, and R signal */
uint16_t gain[VDC5_COLORMTX_GAIN_NUM]; /*!< GG, GB, GR, BG, BB, BR, RG, RB, and RR signal
gain adjustment */
} vdc5_color_matrix_t;
/******************************* For R_VDC5_ImageEnhancement *******************************/
/*! Image quality improver ID */
typedef enum {
VDC5_IMG_IMPRV_0 = 0, /*!< Image quality improver 0 */
VDC5_IMG_IMPRV_1, /*!< Image quality improver 1 */
VDC5_IMG_IMPRV_NUM /*!< The number of image quality improvers */
} vdc5_imgimprv_id_t;
/*! Sharpness band */
typedef enum {
VDC5_IMGENH_SHARP_H1 = 0, /*!< H1: Adjacent pixel used as reference */
VDC5_IMGENH_SHARP_H2, /*!< H2: Second adjacent pixel used as reference */
VDC5_IMGENH_SHARP_H3, /*!< H3: Third adjacent pixel used as reference */
VDC5_IMGENH_SHARP_NUM /*!< The number of horizontal sharpness bands */
} vdc5_img_enh_sh_t;
/*! Sharpness control parameter */
typedef struct {
uint8_t shp_clip_o; /*!< Sharpness correction value clipping (on the overshoot side) */
uint8_t shp_clip_u; /*!< Sharpness correction value clipping (on the undershoot side) */
uint8_t shp_gain_o; /*!< Sharpness edge amplitude value gain (on the overshoot side) */
uint8_t shp_gain_u; /*!< Sharpness edge amplitude value gain (on the undershoot side) */
uint8_t shp_core; /*!< Active sharpness range */
} vdc5_sharpness_ctrl_t;
/*! Sharpness setup parameter */
typedef struct {
vdc5_onoff_t shp_h2_lpf_sel; /*!< LPF selection for folding prevention
before H2 edge detection */
vdc5_sharpness_ctrl_t hrz_sharp[VDC5_IMGENH_SHARP_NUM]; /*!< Sharpness control parameter (H1, H2, and H3) */
} vdc5_enhance_sharp_t;
/*! LTI band */
typedef enum {
VDC5_IMGENH_LTI1 = 0, /*!< H2: Second adjacent pixel used as reference */
VDC5_IMGENH_LTI2, /*!< H4: Fourth adjacent pixel used as reference */
VDC5_IMGENH_LTI_NUM /*!< The number of horizontal LTI bands */
} vdc5_img_enh_lti_t;
/*! Median filter reference pixel select */
typedef enum {
VDC5_LTI_MDFIL_SEL_ADJ2 = 0, /*!< Second adjacent pixel selected as reference */
VDC5_LTI_MDFIL_SEL_ADJ1 /*!< Adjacent pixel selected as reference */
} vdc5_lti_mdfil_sel_t;
/*! LTI control parameter */
typedef struct {
uint8_t lti_inc_zero; /*!< Median filter LTI correction threshold */
uint8_t lti_gain; /*!< LTI edge amplitude value gain */
uint8_t lti_core; /*!< LTI coring (maximum core value of 255) */
} vdc5_lti_ctrl_t;
/*! Luminance Transient Improvement setup parameter */
typedef struct {
vdc5_onoff_t lti_h2_lpf_sel; /*!< LPF selection for folding prevention
before H2 edge detection */
vdc5_lti_mdfil_sel_t lti_h4_median_tap_sel; /*!< Median filter reference pixel select */
vdc5_lti_ctrl_t lti[VDC5_IMGENH_LTI_NUM]; /*!< LTI control parameter (H2 and H4) */
} vdc5_enhance_lti_t;
/******************************* For R_VDC5_ImageBlackStretch *******************************/
/*! Black stretch setup parameter */
typedef struct {
uint16_t bkstr_st; /*!< Black stretch start point */
uint16_t bkstr_d; /*!< Black stretch depth */
uint16_t bkstr_t1; /*!< Black stretch time constant (T1) */
uint16_t bkstr_t2; /*!< Black stretch time constant (T2) */
} vdc5_black_t;
/******************************* For R_VDC5_AlphaBlending *******************************/
/*! Alpha signal of the ARGB1555/ARGB5551 format */
typedef struct {
uint8_t gr_a0; /*!< Alpha signal when alpha is set to '0' */
uint8_t gr_a1; /*!< Alpha signal when alpha is set to '1' */
} vdc5_alpha_argb1555_t;
/*! Alpha blending in one-pixel units */
typedef struct {
vdc5_onoff_t gr_acalc_md; /*!< Premultiplication processing at alpha blending
in one-pixel units (on/off) */
} vdc5_alpha_pixel_t;
/*! Alpha blending setup parameter */
typedef struct {
const vdc5_alpha_argb1555_t * alpha_1bit; /*!< Alpha signal of the ARGB1555/ARGB5551 format */
const vdc5_alpha_pixel_t * alpha_pixel;/*!< Premultiplication processing at alpha blending in one-pixel */
} vdc5_alpha_blending_t;
/******************************* For R_VDC5_AlphaBlendingRect *******************************/
/*! Parameter for alpha blending in a rectangular area */
typedef struct {
int16_t gr_arc_coef; /*!< Alpha coefficient for alpha blending in a rectangular area
(-255 to 255) */
uint8_t gr_arc_rate; /*!< Frame rate for alpha blending in a rectangular area (gr_arc_rate + 1) */
uint8_t gr_arc_def; /*!< Initial alpha value for alpha blending in a rectangular area */
vdc5_onoff_t gr_arc_mul; /*!< Multiplication processing with current alpha at alpha blending
in a rectangular area (on/off) */
} vdc5_alpha_rect_t;
/*! Selection of lower-layer plane in scaler */
typedef struct {
vdc5_onoff_t gr_vin_scl_und_sel; /*!< Selection of lower-layer plane in scaler
- VDC5_OFF: Selects graphics 0 as lower-layer graphics
and graphics 1 as current graphics
- VDC5_ON: Selects graphics 1 as lower-layer graphics
and graphics 0 as current graphics */
} vdc5_scl_und_sel_t;
/*! Setup parameter for alpha blending in a rectangular area */
typedef struct {
const vdc5_pd_disp_rect_t * gr_arc; /*!< Rectangular area subjected to alpha blending */
const vdc5_alpha_rect_t * alpha_rect; /*!< Parameter for alpha blending in a rectangular area */
const vdc5_scl_und_sel_t * scl_und_sel;/*!< Selection of lower-layer plane in scaler */
} vdc5_alpha_blending_rect_t;
/******************************* For R_VDC5_Chromakey *******************************/
/*! Chroma-key setup parameter */
typedef struct {
uint32_t ck_color; /*!< RGB/CLUT signal for RGB/CLUT-index chroma-key processing */
uint32_t rep_color; /*!< Replaced ARGB signal after RGB/CLUT-index chroma-key processing */
uint8_t rep_alpha; /*!< Replaced alpha signal after RGB-index chroma-key processing (in 8 bits) */
} vdc5_chromakey_t;
/******************************* For R_VDC5_CLUT *******************************/
/*! CLUT setup parameter */
typedef struct {
uint32_t color_num; /*!< The number of colors in CLUT */
const uint32_t * clut; /*!< Address of the area storing the CLUT data (in ARGB8888 format) */
} vdc5_clut_t;
/******************************* For R_VDC5_DisplayCalibration *******************************/
/*! Correction circuit sequence control */
typedef enum {
VDC5_CALIBR_ROUTE_BCG = 0, /*!< Brightness -> contrast -> gamma correction */
VDC5_CALIBR_ROUTE_GBC /*!< Gamma correction -> brightness -> contrast */
} vdc5_calibr_route_t;
/*! Brightness (DC) adjustment parameter */
typedef struct {
uint16_t pbrt_g; /*!< Brightness (DC) adjustment of G signal */
uint16_t pbrt_b; /*!< Brightness (DC) adjustment of B signal */
uint16_t pbrt_r; /*!< Brightness (DC) adjustment of R signal */
} vdc5_calibr_bright_t;
/*! Contrast (gain) adjustment parameter */
typedef struct {
uint8_t cont_g; /*!< Contrast (gain) adjustment of G signal */
uint8_t cont_b; /*!< Contrast (gain) adjustment of B signal */
uint8_t cont_r; /*!< Contrast (gain) adjustment of R signal */
} vdc5_calibr_contrast_t;
/*! Panel dither operation mode */
typedef enum {
VDC5_PDTH_MD_TRU = 0, /*!< Truncate */
VDC5_PDTH_MD_RDOF, /*!< Round-off */
VDC5_PDTH_MD_2X2, /*!< 2 x 2 pattern dither */
VDC5_PDTH_MD_RAND, /*!< Random pattern dither */
VDC5_PDTH_MD_NUM
} vdc5_panel_dither_md_t;
/*! Panel dithering parameter */
typedef struct {
vdc5_panel_dither_md_t pdth_sel; /*!< Panel dither operation mode */
uint8_t pdth_pa; /*!< Pattern value (A) of 2x2 pattern dither */
uint8_t pdth_pb; /*!< Pattern value (B) of 2x2 pattern dither */
uint8_t pdth_pc; /*!< Pattern value (C) of 2x2 pattern dither */
uint8_t pdth_pd; /*!< Pattern value (D) of 2x2 pattern dither */
} vdc5_calibr_dither_t;
/*! Display calibration parameter */
typedef struct {
vdc5_calibr_route_t route; /*!< Correction circuit sequence control */
const vdc5_calibr_bright_t * bright; /*!< Brightness (DC) adjustment parameter */
const vdc5_calibr_contrast_t * contrast; /*!< Contrast (gain) adjustment parameter */
const vdc5_calibr_dither_t * panel_dither; /*!< Panel dithering parameter */
} vdc5_disp_calibration_t;
/******************************* For R_VDC5_GammaCorrection *******************************/
/*! Gamma correction setup parameter */
typedef struct {
const uint16_t * gam_g_gain; /*!< Gain adjustment of area 0 to 31 of G signal */
const uint8_t * gam_g_th; /*!< Start threshold of area 1 to 31 of G signal */
const uint16_t * gam_b_gain; /*!< Gain adjustment of area 0 to 31 of B signal */
const uint8_t * gam_b_th; /*!< Start threshold of area 1 to 31 of B signal */
const uint16_t * gam_r_gain; /*!< Gain adjustment of area 0 to 31 of R signal */
const uint8_t * gam_r_th; /*!< Start threshold of area 1 to 31 of R signal */
} vdc5_gamma_correction_t;
/******************************************************************************
Exported global variables
******************************************************************************/
/******************************************************************************
Exported global functions (to be accessed by other files)
******************************************************************************/
vdc5_error_t R_VDC5_Initialize(
const vdc5_channel_t ch,
const vdc5_init_t * const param,
void (* const init_func)(uint32_t),
const uint32_t user_num);
vdc5_error_t R_VDC5_Terminate(const vdc5_channel_t ch, void (* const quit_func)(uint32_t), const uint32_t user_num);
vdc5_error_t R_VDC5_VideoInput(const vdc5_channel_t ch, const vdc5_input_t * const param);
vdc5_error_t R_VDC5_SyncControl(const vdc5_channel_t ch, const vdc5_sync_ctrl_t * const param);
vdc5_error_t R_VDC5_DisplayOutput(const vdc5_channel_t ch, const vdc5_output_t * const param);
vdc5_error_t R_VDC5_CallbackISR(const vdc5_channel_t ch, const vdc5_int_t * const param);
vdc5_error_t R_VDC5_WriteDataControl(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_write_t * const param);
vdc5_error_t R_VDC5_ChangeWriteProcess(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_write_chg_t * const param);
vdc5_error_t R_VDC5_ReadDataControl(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_read_t * const param);
vdc5_error_t R_VDC5_ChangeReadProcess(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_read_chg_t * const param);
vdc5_error_t R_VDC5_StartProcess(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_start_t * const param);
vdc5_error_t R_VDC5_StopProcess(const vdc5_channel_t ch, const vdc5_layer_id_t layer_id);
vdc5_error_t R_VDC5_ReleaseDataControl(const vdc5_channel_t ch, const vdc5_layer_id_t layer_id);
vdc5_error_t R_VDC5_VideoNoiseReduction(
const vdc5_channel_t ch,
const vdc5_onoff_t nr1d_on,
const vdc5_noise_reduction_t * const param);
vdc5_error_t R_VDC5_ImageColorMatrix(const vdc5_channel_t ch, const vdc5_color_matrix_t * const param);
vdc5_error_t R_VDC5_ImageEnhancement(
const vdc5_channel_t ch,
const vdc5_imgimprv_id_t imgimprv_id,
const vdc5_onoff_t shp_h_on,
const vdc5_enhance_sharp_t * const sharp_param,
const vdc5_onoff_t lti_h_on,
const vdc5_enhance_lti_t * const lti_param,
const vdc5_period_rect_t * const enh_area);
vdc5_error_t R_VDC5_ImageBlackStretch(
const vdc5_channel_t ch,
const vdc5_imgimprv_id_t imgimprv_id,
const vdc5_onoff_t bkstr_on,
const vdc5_black_t * const param);
vdc5_error_t R_VDC5_AlphaBlending(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_alpha_blending_t * const param);
vdc5_error_t R_VDC5_AlphaBlendingRect(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_onoff_t gr_arc_on,
const vdc5_alpha_blending_rect_t * const param);
vdc5_error_t R_VDC5_Chromakey(
const vdc5_channel_t ch,
const vdc5_layer_id_t layer_id,
const vdc5_onoff_t gr_ck_on,
const vdc5_chromakey_t * const param);
vdc5_error_t R_VDC5_CLUT(const vdc5_channel_t ch, const vdc5_layer_id_t layer_id, const vdc5_clut_t * const param);
vdc5_error_t R_VDC5_DisplayCalibration(const vdc5_channel_t ch, const vdc5_disp_calibration_t * const param);
vdc5_error_t R_VDC5_GammaCorrection(
const vdc5_channel_t ch,
const vdc5_onoff_t gam_on,
const vdc5_gamma_correction_t * const param);
void (*R_VDC5_GetISR(const vdc5_channel_t ch, const vdc5_int_type_t type))(const uint32_t int_sense);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* R_VDC5_H */