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/src/r_vdc5.c
- 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.c
* @version 1.00
* $Rev: 199 $
* $Date:: 2014-05-23 16:33:52 +0900#$
* @brief VDC5 driver API function
******************************************************************************/
/******************************************************************************
Includes <System Includes> , "Project Includes"
******************************************************************************/
#include "r_vdc5.h"
#include "r_vdc5_user.h"
#include "r_vdc5_register.h"
#include "r_vdc5_shared_param.h"
#include "r_vdc5_check_parameter.h"
/******************************************************************************
Macro definitions
******************************************************************************/
/******************************************************************************
Typedef definitions
******************************************************************************/
/******************************************************************************
Private global variables and functions
******************************************************************************/
static vdc5_scaling_type_t ConvertRwProcId2SclId(const vdc5_layer_id_t layer_id);
static vdc5_graphics_type_t ConvertRwProcId2GrId(const vdc5_layer_id_t layer_id);
/**************************************************************************//**
* @brief VDC5 driver initialization
*
* Description:<br>
* This function performs the following processing:
* - Initializes the VDC5 driver's internal variables.
* - Calls the user-defined function specified in init_func.
* - Sets up and enables the VDC5's panel clock.
* - Sets up and enables the LVDS only if LVDS is used.
* - Disables all the VDC5 interrupts.
* @param[in] ch : Channel
* @param[in] param : Initialization parameter
* @param[in] init_func : Pointer to a user-defined function
* @param[in] user_num : User defined number
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_InitializeCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
VDC5_ShrdPrmInit(ch);
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_LVDS_CLK);
if (rsrc_state != VDC5_RESOURCE_ST_INVALID) {
/* The LVDS PLL clock has been already set. */
if (param->lvds != NULL) {
ret = VDC5_ERR_RESOURCE_LVDS_CLK;
}
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetInitParam(ch, param);
/* Callback function */
if (init_func != 0) {
init_func(user_num);
}
VDC5_Initialize(ch, param);
/* Disable all VDC5 interrupts */
VDC5_Int_Disable(ch);
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_PANEL_CLK, VDC5_RESOURCE_ST_VALID);
if (param->lvds != NULL) {
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_LVDS_CLK, VDC5_RESOURCE_ST_VALID);
}
}
return ret;
} /* End of function R_VDC5_Initialize() */
/**************************************************************************//**
* @brief VDC5 driver termination
*
* Description:<br>
* This function performs the following processing:
* - Disables all the VDC5 interrupts.
* - Disables the VDC5 panel clock.
* - Disables the LVDS if one is used and becomes unnecessary as the result of calling this function.
* - Calls the user-defined function specified in quit_func.
* @param[in] ch : Channel
* @param[in] quit_func : Pointer to a user-defined function
* @param[in] user_num : User defined number
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_onoff_t lvds_ref;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_TerminateCheckPrm(ch);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetTerminate(ch);
/* Disable all VDC5 interrupts */
VDC5_Int_Disable(ch);
VDC5_Terminate(ch);
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_PANEL_CLK, VDC5_RESOURCE_ST_INVALID);
lvds_ref = VDC5_ShrdPrmGetLvdsClkRef();
if (lvds_ref == VDC5_OFF) { /* LVDS PLL clock is not referred. */
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_LVDS_CLK, VDC5_RESOURCE_ST_INVALID);
}
/* Callback function */
if (quit_func != 0) {
quit_func(user_num);
}
}
return ret;
} /* End of function R_VDC5_Terminate() */
/**************************************************************************//**
* @brief Video input setup
*
* Description:<br>
* This function performs the following processing:
* - Selects the video input.
* - Sets up the phase timing of the input signals.
* - Performs delay control on the sync signal for the video inputs.
* - Sets up the parameters for the external input video signals only when they are used.
* @param[in] ch : Channel
* @param[in] param : Video input setup parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_VideoInput (const vdc5_channel_t ch, const vdc5_input_t * const param)
{
vdc5_error_t ret;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_VideoInputCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetInputParam(ch, param);
/* Setting VDC5 registers */
VDC5_VideoInput(ch, param);
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_VIDEO_IN, VDC5_RESOURCE_ST_VALID);
}
return ret;
} /* End of function R_VDC5_VideoInput() */
/**************************************************************************//**
* @brief Sync control setup
*
* Description:<br>
* This function performs the following processing:
* - Selects the vertical sync signal.
* - Sets up the period of the sync signal.
* - Sets up the delay of the vertical sync signal.
* - Sets up the full-screen enable signal.
* - Sets up the compensation for the vertical sync signal.
* @param[in] ch : Channel
* @param[in] param : Sync control parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_SyncControl (const vdc5_channel_t ch, const vdc5_sync_ctrl_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_SyncControlCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_PANEL_CLK);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_CLK;
}
}
if (ret == VDC5_OK) {
if (param->res_vs_sel == VDC5_OFF) {
/* External input Vsync signal is selected. */
if (param->res_vs_in_sel == VDC5_RES_VS_IN_SEL_SC0) {
/* Scaler 0 */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_VIDEO_IN);
} else {
/* Scaler 1 */
rsrc_state = VDC5_ShrdPrmGetResource(
((ch == VDC5_CHANNEL_0) ? VDC5_CHANNEL_1 : VDC5_CHANNEL_0),
VDC5_RESOURCE_VIDEO_IN);
}
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_INPUT;
}
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetSyncParam(ch, param);
/* Setting VDC5 registers */
VDC5_SyncControl(ch, param);
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_VSYNC, VDC5_RESOURCE_ST_VALID);
}
return ret;
} /* End of function R_VDC5_SyncControl() */
/**************************************************************************//**
* @brief Display output setup
*
* Description:<br>
* This function performs the following processing:
* - Sets up the timing signals for driving the LCD panel.
* - Sets up the phase, data sequence, and format of the LCD panel output data.
* - Sets up the background color.
* @param[in] ch : Channel
* @param[in] param : Display output configuration parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_DisplayOutput (const vdc5_channel_t ch, const vdc5_output_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_DisplayOutputCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_PANEL_CLK);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_CLK;
} else {
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_VSYNC);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_VSYNC;
}
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetOutputParam(ch, param);
/* Setting VDC5 registers */
VDC5_DisplayOutput(ch, param);
VDC5_ShrdPrmSetResource(ch, VDC5_RESOURCE_LCD_PANEL, VDC5_RESOURCE_ST_VALID);
}
return ret;
} /* End of function R_VDC5_DisplayOutput() */
/**************************************************************************//**
* @brief Interrupt callback setup
*
* Description:<br>
* This function performs the following processing:
* - Enables the interrupt when the pointer to the corresponding interrupt callback function is specified.
* - Registers the specified interrupt callback function.
* - Disables the interrupt when the pointer to the corresponding interrupt callback function is not
* specified.
* @param[in] ch : Channel
* @param[in] param : Interrupt callback setup parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_CallbackISR (const vdc5_channel_t ch, const vdc5_int_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_CallbackISRCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_PANEL_CLK);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_CLK;
} else {
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_VSYNC);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_VSYNC;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_Int_SetInterrupt(ch, param);
}
return ret;
} /* End of function R_VDC5_CallbackISR() */
/**************************************************************************//**
* @brief Data write control processing
*
* Description:<br>
* This function performs the following processing:
* - Sets up the input image area to be captured.
* - Makes input image scale-down/rotation control settings (layers 0 and 1 only).
* - Makes frame buffer write control settings.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_WR
* - VDC5_LAYER_ID_1_WR
* - VDC5_LAYER_ID_OIR_WR
* @param[in] param : Data write control parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_scaling_type_t scaling_id;
vdc5_resource_state_t rsrc_state;
scaling_id = ConvertRwProcId2SclId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_WriteDataControlCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state != VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is already used. */
ret = VDC5_ERR_RESOURCE_LAYER;
} else {
if (layer_id == VDC5_LAYER_ID_0_WR) {
/* Layer 0 */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_VIDEO_IN);
} else if (layer_id == VDC5_LAYER_ID_1_WR) {
/* Layer 1 */
rsrc_state = VDC5_ShrdPrmGetResource(
((ch == VDC5_CHANNEL_0) ? VDC5_CHANNEL_1 : VDC5_CHANNEL_0),
VDC5_RESOURCE_VIDEO_IN);
} else {
/* Layer OIR */
rsrc_state = VDC5_RESOURCE_ST_VALID;
}
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_INPUT;
}
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetWriteParam(ch, scaling_id, param);
/* Setting VDC5 registers */
VDC5_WriteDataControl(ch, scaling_id, param);
VDC5_ShrdPrmSetLayerResource(ch, layer_id, VDC5_RESOURCE_ST_VALID);
}
return ret;
} /* End of function R_VDC5_WriteDataControl() */
/**************************************************************************//**
* @brief Data write change processing
*
* Description:<br>
* This function performs the following processing:
* - Changes the input image area to be captured.
* - Makes changes with respect to scaling-down/rotation control of the input image (layers 0 and 1 only).
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_WR
* - VDC5_LAYER_ID_1_WR
* - VDC5_LAYER_ID_OIR_WR
* @param[in] param : Data write change parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_scaling_type_t scaling_id;
vdc5_resource_state_t rsrc_state;
scaling_id = ConvertRwProcId2SclId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ChangeWriteProcessCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetRwProcEnabled(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetChgWriteParam(ch, scaling_id, param);
/* Setting VDC5 registers */
VDC5_ChangeWriteProcess(ch, scaling_id, param);
}
return ret;
} /* End of function R_VDC5_ChangeWriteProcess() */
/**************************************************************************//**
* @brief Data read control processing
*
* Description:<br>
* This function performs the following processing:
* - Sets up the display area for graphics images.
* - Makes image scale-up control settings (layers 0 and 1 only).
* - Makes frame buffer read control settings.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_RD
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* - VDC5_LAYER_ID_OIR_RD
* @param[in] param : Data read control parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ReadDataControlCheckPrm(ch, layer_id, graphics_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state != VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is already used. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetReadParam(ch, graphics_id, param);
/* Setting VDC5 registers */
VDC5_ReadDataControl(ch, graphics_id, param);
VDC5_ShrdPrmSetLayerResource(ch, layer_id, VDC5_RESOURCE_ST_VALID);
}
return ret;
} /* End of function R_VDC5_ReadDataControl() */
/**************************************************************************//**
* @brief Data read change processing
*
* Description:<br>
* This function performs the following processing:
* - Changes the frame buffer base address.
* - Changes the frame buffer read size (image scale-up control) (layers 0 and 1 only).
* - Changes the display area for graphics images.
* - Changes the graphics display mode.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_RD
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* - VDC5_LAYER_ID_OIR_RD
* @param[in] param : Data read change parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ChangeReadProcessCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetRwProcEnabled(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
VDC5_ShrdPrmSetChgReadParam(ch, graphics_id, param);
/* Setting VDC5 registers */
VDC5_ChangeReadProcess(ch, graphics_id, param);
}
return ret;
} /* End of function R_VDC5_ChangeReadProcess() */
/**************************************************************************//**
* @brief Data write/read start processing
*
* Description:<br>
* This function performs layer start processing. If the layer ID specified in layer_id
* is VDC5_LAYER_ID_ALL, the function starts all the layers that are in the stopped state
* and also enabled. If the layer ID is not VDC5_LAYER_ID_ALL, the function starts only
* the specified layer.<br>
* When performing start processing for write, the function starts a write to the frame buffer.
* When performing start processing for read, the function starts a read from the frame buffer
* and sets the graphics display mode to the specified values for each layer.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* @param[in] param : Data write/read start parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_StartProcessCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
if (layer_id != VDC5_LAYER_ID_ALL) {
rsrc_state = VDC5_ShrdPrmGetRwProcReady(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_StartProcess(ch, layer_id, param);
}
return ret;
} /* End of function R_VDC5_StartProcess() */
/**************************************************************************//**
* @brief Data write/read stop processing
*
* Description:<br>
* This function performs layer stop processing. If the layer ID specified in layer_id is
* VDC5_LAYER_ID_ALL, the function stops all the layers that are enabled and running.
* If the layer ID is not VDC5_LAYER_ID_ALL, the function stops only the specified layer.<br>
* When performing stop processing for write, the function stops the write to the frame buffer.
* When performing stop processing for read, the function stops the read from the frame buffer
* and resets the graphics display mode to the initial values for each of the layers.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_StopProcess (const vdc5_channel_t ch, const vdc5_layer_id_t layer_id)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_StopProcessCheckPrm(ch, layer_id);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
if (layer_id != VDC5_LAYER_ID_ALL) {
rsrc_state = VDC5_ShrdPrmGetRwProcEnabled(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_StopProcess(ch, layer_id);
}
return ret;
} /* End of function R_VDC5_StopSurface() */
/**************************************************************************//**
* @brief Data write/read control release processing
*
* Description:<br>
* This function performs the following processing:
* - Disables the specified layer.
* - Initializes the cascaded connection settings (layer 1 read processing only).
* - Initializes the VIN synthesizer settings (layer 0 and 1 read processing only).
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_ReleaseDataControl (const vdc5_channel_t ch, const vdc5_layer_id_t layer_id)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ReleaseDataControlCheckPrm(ch, layer_id);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
if (layer_id != VDC5_LAYER_ID_ALL) {
rsrc_state = VDC5_ShrdPrmGetRwProcReady(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_ReleaseDataControl(ch, layer_id);
VDC5_ShrdPrmSetLayerResource(ch, layer_id, VDC5_RESOURCE_ST_INVALID);
}
return ret;
} /* End of function R_VDC5_ReleaseDataControl() */
/**************************************************************************//**
* @brief Noise reduction setup
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off noise reduction processing.
* - Sets up the noise reduction parameters for the Y/G, Cb/B, and Cr/R signals.
* @param[in] ch : Channel
* @param[in] nr1d_on : Noise reduction ON/OFF setting
* @param[in] param : Noise reduction setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_VideoNoiseReductCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_VIDEO_IN);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_INPUT;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_VideoNoiseReduction(ch, nr1d_on, param);
}
return ret;
} /* End of function R_VDC5_VideoNoiseReduction() */
/**************************************************************************//**
* @brief Color matrix setup
*
* Description:<br>
* This function sets up the specified color matrix.
* @param[in] ch : Channel
* @param[in] param : Color matrix setup parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_ImageColorMatrix (const vdc5_channel_t ch, const vdc5_color_matrix_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ImageColorMatrixCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
if (param->module == VDC5_COLORMTX_IMGCNT) {
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, VDC5_LAYER_ID_0_WR);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
rsrc_state = VDC5_ShrdPrmGetLayerResource(
((ch == VDC5_CHANNEL_0) ? VDC5_CHANNEL_1 : VDC5_CHANNEL_0),
VDC5_LAYER_ID_1_WR);
}
} else if (param->module == VDC5_COLORMTX_ADJ_0) {
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, VDC5_LAYER_ID_0_RD);
} else {
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, VDC5_LAYER_ID_1_RD);
}
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_ImageColorMatrix(ch, param);
}
return ret;
} /* End of function R_VDC5_ImageColorMatrix() */
/**************************************************************************//**
* @brief Image enhancement processing
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off sharpness processing.
* - Sets up the sharpness parameter.
* - Turns on and off LTI processing.
* - Sets up the LTI parameter.
* - Sets up the enhancer-enabled area to be subjected to sharpness and LTI processing.
* @param[in] ch : Channel
* @param[in] imgimprv_id : Image quality improver ID
* @param[in] shp_h_on : Sharpness ON/OFF setting
* @param[in] sharp_param : Sharpness setup parameter
* @param[in] lti_h_on : LTI ON/OFF setting
* @param[in] lti_param : LTI setup parameter
* @param[in] enh_area : Enhancer-enabled area setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_resource_state_t rsrc_state;
vdc5_color_space_t color_space;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ImageEnhancementCheckPrm(ch, imgimprv_id, sharp_param, enh_area);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(
ch,
((imgimprv_id == VDC5_IMG_IMPRV_0) ? VDC5_LAYER_ID_0_RD : VDC5_LAYER_ID_1_RD));
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
} else {
/* Condition checks */
color_space = VDC5_ShrdPrmGetColorSpaceFbRd(
ch,
((imgimprv_id == VDC5_IMG_IMPRV_0) ? VDC5_GR_TYPE_GR0 : VDC5_GR_TYPE_GR1));
if (color_space == VDC5_COLOR_SPACE_GBR) {
/* The image quality improver does not act on RGB signals. */
ret = VDC5_ERR_IF_CONDITION;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_ImageEnhancement(ch, imgimprv_id, shp_h_on, sharp_param, lti_h_on, lti_param, enh_area);
}
return ret;
} /* End of function R_VDC5_ImageEnhancement() */
/**************************************************************************//**
* @brief Black stretch setup
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off black stretch processing.
* - Sets up the black stretch parameters.
* @param[in] ch : Channel
* @param[in] imgimprv_id : Image quality improver ID
* @param[in] bkstr_on : Black stretch ON/OFF setting
* @param[in] param : Black stretch setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_resource_state_t rsrc_state;
vdc5_color_space_t color_space;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ImageBlackStretchCheckPrm(ch, imgimprv_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(
ch,
((imgimprv_id == VDC5_IMG_IMPRV_0) ? VDC5_LAYER_ID_0_RD : VDC5_LAYER_ID_1_RD));
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
} else {
/* Condition checks */
color_space = VDC5_ShrdPrmGetColorSpaceFbRd(
ch,
((imgimprv_id == VDC5_IMG_IMPRV_0) ? VDC5_GR_TYPE_GR0 : VDC5_GR_TYPE_GR1));
if (color_space == VDC5_COLOR_SPACE_GBR) {
/* The image quality improver does not act on RGB signals. */
ret = VDC5_ERR_IF_CONDITION;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_ImageBlackStretch(ch, imgimprv_id, bkstr_on, param);
}
return ret;
} /* End of function R_VDC5_ImageBlackStretch() */
/**************************************************************************//**
* @brief Alpha blending setup
*
* Description:<br>
* This function performs the following processing:
* - Sets up the alpha value of the ARGB1555/RGBA5551 formats.
* - Make settings for premultiplication processing at alpha blending in one-pixel.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* @param[in] param : Alpha blending setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_AlphaBlendingCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_AlphaBlending(ch, graphics_id, param);
}
return ret;
} /* End of function R_VDC5_AlphaBlending() */
/**************************************************************************//**
* @brief Rectangle alpha blending setup
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off alpha blending in a rectangular area.
* - Sets up the rectangular area subjected to alpha blending.
* - Sets up the alpha value for alpha blending in a rectangular area.
* - Makes fade-in/-out settings to be applied to rectangle alpha blending.
* - Allocates graphics 0 and 1 to the lower-layer/current graphics in the VIN synthesizer.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* - VDC5_LAYER_ID_VIN_RD
* @param[in] gr_arc_on : ON/OFF setting for alpha blending in a rectangular area
* @param[in] param : Setup parameter for alpha blending in a rectangular area
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_color_space_t color_space;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_AlphaBlendingRectCheckPrm(ch, layer_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
if (layer_id != VDC5_LAYER_ID_VIN_RD) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
} else {
/* Condition checks */
color_space = VDC5_ShrdPrmGetColorSpaceFbRd(ch, graphics_id);
if (color_space == VDC5_COLOR_SPACE_YCBCR) {
/* Alpha blending cannot be used
when the format of the signal read from the frame buffer is YCbCr422 or YCbCr444. */
ret = VDC5_ERR_IF_CONDITION;
}
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_AlphaBlendingRect(ch, graphics_id, gr_arc_on, param);
}
return ret;
} /* End of function R_VDC5_AlphaBlendingRect() */
/**************************************************************************//**
* @brief Chroma-key setup
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off the chroma-key processing.
* - Sets up the color signals to be subject to chroma-key processing and
* the color signals after replacement.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_RD
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* - VDC5_LAYER_ID_OIR_RD
* @param[in] gr_ck_on : Chroma-key ON/OFF setting
* @param[in] param : Chroma-key setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_color_space_t color_space;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_ChromakeyCheckPrm(ch, layer_id, graphics_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
} else {
/* Condition checks */
color_space = VDC5_ShrdPrmGetColorSpaceFbRd(ch, graphics_id);
if (color_space == VDC5_COLOR_SPACE_YCBCR) {
/* Chroma-key processing cannot be used
when the format of the signal read from the frame buffer is YCbCr422 or YCbCr444. */
ret = VDC5_ERR_IF_CONDITION;
}
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_Chromakey(ch, graphics_id, gr_ck_on, param);
}
return ret;
} /* End of function R_VDC5_Chromakey() */
/**************************************************************************//**
* @brief CLUT setup
*
* Description:<br>
* This function sets up CLUT for the specified layer.
* @param[in] ch : Channel
* @param[in] layer_id : Layer ID
* - VDC5_LAYER_ID_0_RD
* - VDC5_LAYER_ID_1_RD
* - VDC5_LAYER_ID_2_RD
* - VDC5_LAYER_ID_3_RD
* - VDC5_LAYER_ID_OIR_RD
* @param[in] param : CLUT setup parameter
* @retval Error code
*****************************************************************************/
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 ret;
vdc5_graphics_type_t graphics_id;
vdc5_resource_state_t rsrc_state;
graphics_id = ConvertRwProcId2GrId(layer_id);
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_CLUTCheckPrm(ch, layer_id, graphics_id, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetLayerResource(ch, layer_id);
if (rsrc_state == VDC5_RESOURCE_ST_INVALID) {
/* The specified layer is invalid. */
ret = VDC5_ERR_RESOURCE_LAYER;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_CLUT(ch, graphics_id, param);
}
return ret;
} /* End of function R_VDC5_SetCLUT() */
/**************************************************************************//**
* @brief Display calibration processing
*
* Description:<br>
* This function performs the following processing:
* - Sets up panel brightness adjustment.
* - Sets up contrast adjustment.
* - Sets up panel dithering.
* - Makes control settings for the correction circuit sequence.
* @param[in] ch : Channel
* @param[in] param : Display calibration parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_DisplayCalibration (const vdc5_channel_t ch, const vdc5_disp_calibration_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_DisplayCalibrationCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_LCD_PANEL);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_OUTPUT;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_DisplayCalibration(ch, param);
}
return ret;
} /* End of function R_VDC5_DisplayCalibration() */
/**************************************************************************//**
* @brief Gamma correction setup
*
* Description:<br>
* This function performs the following processing:
* - Turns on and off gamma correction processing.
* - Sets up the gamma correction gain adjustment values for the G/B/R signals.
* - Sets up the gamma correction start threshold values for the G/B/R signals.
* @param[in] ch : Channel
* @param[in] gam_on : Gamma correction ON/OFF setting
* @param[in] param : Gamma correction setup parameter
* @retval Error code
*****************************************************************************/
vdc5_error_t R_VDC5_GammaCorrection (
const vdc5_channel_t ch,
const vdc5_onoff_t gam_on,
const vdc5_gamma_correction_t * const param)
{
vdc5_error_t ret;
vdc5_resource_state_t rsrc_state;
ret = VDC5_OK;
#ifdef R_VDC5_CHECK_PARAMETERS
ret = VDC5_GammaCorrectionCheckPrm(ch, param);
#endif /* R_VDC5_CHECK_PARAMETERS */
if (ret == VDC5_OK) {
/* Resource checks */
rsrc_state = VDC5_ShrdPrmGetResource(ch, VDC5_RESOURCE_LCD_PANEL);
if (rsrc_state != VDC5_RESOURCE_ST_VALID) {
ret = VDC5_ERR_RESOURCE_OUTPUT;
}
}
if (ret == VDC5_OK) {
/* Setting VDC5 registers */
VDC5_GammaCorrection(ch, gam_on, param);
}
return ret;
} /* End of function R_VDC5_GammaCorrection() */
/******************************************************************************
Local Functions
******************************************************************************/
/**************************************************************************//**
* @brief Convert read/write process ID into scaling type ID
*
* @param[in] layer_id : Layer ID
* @retval Scaling type ID
*****************************************************************************/
static vdc5_scaling_type_t ConvertRwProcId2SclId (const vdc5_layer_id_t layer_id)
{
vdc5_scaling_type_t scaling_id;
switch (layer_id) {
case VDC5_LAYER_ID_0_WR: /* Layer 0, write process */
scaling_id = VDC5_SC_TYPE_SC0; /* Scaler 0 */
break;
case VDC5_LAYER_ID_1_WR: /* Layer 1, write process */
scaling_id = VDC5_SC_TYPE_SC1; /* Scaler 1 */
break;
case VDC5_LAYER_ID_OIR_WR: /* Layer OIR, write process */
scaling_id = VDC5_SC_TYPE_OIR; /* OIR */
break;
default: /* Error */
scaling_id = VDC5_SC_TYPE_NUM;
break;
}
return scaling_id;
} /* End of function ConvertRwProcId2SclId() */
/**************************************************************************//**
* @brief Convert read/write process ID into graphics type ID
*
* @param[in] layer_id : Layer ID
* @retval Graphics type ID
*****************************************************************************/
static vdc5_graphics_type_t ConvertRwProcId2GrId (const vdc5_layer_id_t layer_id)
{
vdc5_graphics_type_t graphics_id;
switch (layer_id) {
case VDC5_LAYER_ID_0_RD: /* Layer 0, read process */
graphics_id = VDC5_GR_TYPE_GR0; /* Graphics 0 */
break;
case VDC5_LAYER_ID_1_RD: /* Layer 1, read process */
graphics_id = VDC5_GR_TYPE_GR1; /* Graphics 1 */
break;
case VDC5_LAYER_ID_2_RD: /* Layer 2, read process */
graphics_id = VDC5_GR_TYPE_GR2; /* Graphics 2 */
break;
case VDC5_LAYER_ID_3_RD: /* Layer 3, read process */
graphics_id = VDC5_GR_TYPE_GR3; /* Graphics 3 */
break;
case VDC5_LAYER_ID_VIN_RD: /* Layer VIN, read process */
graphics_id = VDC5_GR_TYPE_VIN; /* VIN */
break;
case VDC5_LAYER_ID_OIR_RD: /* Layer OIR, read process */
graphics_id = VDC5_GR_TYPE_OIR; /* OIR */
break;
default: /* Error */
graphics_id = VDC5_GR_TYPE_NUM;
break;
}
return graphics_id;
} /* End of function ConvertRwProcId2GrId() */