rt-thread-official/bsp/synwit/swm341/libraries/SWM341_StdPeriph_Driver/SWM341_jpeg.c

276 lines
13 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/******************************************************************************************************************************************
* 文件名称: SWM341_jpeg.c
* 功能说明: SWM341单片机的JPEG解码器驱动库
* 技术支持: http://www.synwit.com.cn/e/tool/gbook/?bid=1
* 注意事项:
* 版本日期: V1.1.0 2017年10月25日
* 升级记录:
*
*
*******************************************************************************************************************************************
* @attention
*
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS WITH CODING INFORMATION
* REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME. AS A RESULT, SYNWIT SHALL NOT BE HELD LIABLE
* FOR ANY DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE CONTENT
* OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING INFORMATION CONTAINED HEREIN IN CONN-
* -ECTION WITH THEIR PRODUCTS.
*
* COPYRIGHT 2012 Synwit Technology
*******************************************************************************************************************************************/
#include "SWM341.h"
#include "SWM341_jpeg.h"
#include <math.h>
#include <string.h>
/******************************************************************************************************************************************
* 函数名称: JPEG_Init()
* 功能说明: JPEG解码器初始化
* 输 入: JPEG_TypeDef * JPEGx 指定要被设置的JPEG解码器有效值包括JPEG
* JPEG_InitStructure * initStruct 包含JPEG解码器相关设定值的结构体
* 输 出: 无
* 注意事项: 无
******************************************************************************************************************************************/
void JPEG_Init(JPEG_TypeDef * JPEGx, JPEG_InitStructure * initStruct)
{
switch((uint32_t)JPEGx)
{
case ((uint32_t)JPEG):
SYS->CLKEN1 |= (0x01 << SYS_CLKEN1_JPEG_Pos);
break;
}
JPEGx->IR = JPEG_IR_ICDONE_Msk |
JPEG_IR_ICERROR_Msk;
JPEGx->IR = ((initStruct->DoneIEn ? 1 : 0) << JPEG_IR_IEDONE_Pos) |
((initStruct->ErrorIEn ? 1 : 0) << JPEG_IR_IEERROR_Pos);
switch((uint32_t)JPEGx)
{
case ((uint32_t)JPEG):
if(initStruct->DoneIEn | initStruct->ErrorIEn)
{
NVIC_EnableIRQ(JPEG_IRQn);
}
else
{
NVIC_DisableIRQ(JPEG_IRQn);
}
break;
}
}
/******************************************************************************************************************************************
* 函数名称: JPEG_Decode()
* 功能说明: JPEG解码器解码
* 输 入: JPEG_TypeDef * JPEGx 指定要被设置的JPEG解码器有效值包括JPEG
* jfif_info_t * jfif_info 要解码图像的信息
* jpeg_outset_t * jpeg_outset 解码输出设定
* 输 出: 无
* 注意事项: 无
******************************************************************************************************************************************/
void JPEG_Decode(JPEG_TypeDef * JPEGx, jfif_info_t * jfif_info, jpeg_outset_t * jpeg_outset)
{
int32_t i, j;
uint8_t hxvx;
uint8_t out_rgb = ((jpeg_outset->format & 7) > 1 ? 1 : 0); // output rgb ?
switch((jfif_info->CompInfo[0].hfactor << 4) | jfif_info->CompInfo[0].vfactor)
{
case 0x11: hxvx = JPEG_FMT_H1V1; break;
case 0x21: hxvx = JPEG_FMT_H2V1; break;
case 0x22: hxvx = JPEG_FMT_H2V2; break;
default: return;
}
JPEGx->CFG = (hxvx << JPEG_CFG_SRCFMT_Pos) |
(0 << JPEG_CFG_SCANMOD_Pos) |
(0 << JPEG_CFG_NISCOMP_Pos) |
(jfif_info->CompInfo[0].htab_id_dc << JPEG_CFG_HT1COMP_Pos) |
(jfif_info->CompInfo[1].htab_id_dc << JPEG_CFG_HT2COMP_Pos) |
(jfif_info->CompInfo[2].htab_id_dc << JPEG_CFG_HT3COMP_Pos) |
(jfif_info->CompInfo[0].qtab_id << JPEG_CFG_QT1COMP_Pos) |
(jfif_info->CompInfo[1].qtab_id << JPEG_CFG_QT2COMP_Pos) |
(jfif_info->CompInfo[2].qtab_id << JPEG_CFG_QT3COMP_Pos) |
(jpeg_outset->format << JPEG_CFG_OUTFMT_Pos) |
(out_rgb << JPEG_CFG_YUV2RGB_Pos) |
(jpeg_outset->dither << JPEG_CFG_565DITH_Pos);
JPEGx->IMGSIZ = ((jfif_info->Width - 1) << JPEG_IMGSIZ_HPIX_Pos) |
((jfif_info->Height - 1) << JPEG_IMGSIZ_VPIX_Pos);
JPEGx->CSBASE = jfif_info->CodeAddr;
JPEGx->CODLEN = jfif_info->CodeLen - 1;
if(out_rgb)
{
JPEGx->RGBASE = jpeg_outset->RGBAddr;
switch(jpeg_outset->format & 7)
{
case JPEG_OUT_XRGB888:
JPEG->IMGSTR = jfif_info->Width << JPEG_IMGSTR_RGBLINE_Pos;
break;
case JPEG_OUT_RGB888:
JPEG->IMGSTR = (int)ceil(jfif_info->Width*3/4.0) << JPEG_IMGSTR_RGBLINE_Pos;
break;
case JPEG_OUT_RGB565:
JPEG->IMGSTR = (int)ceil(jfif_info->Width / 2.0) << JPEG_IMGSTR_RGBLINE_Pos;
break;
}
}
else
{
JPEGx->YBASE = jpeg_outset->YAddr;
JPEGx->UBASE = jpeg_outset->CbAddr;
JPEGx->VBASE = jpeg_outset->CrAddr;
switch(((jpeg_outset->format & 7) << 4) | hxvx)
{
case (JPEG_OUT_YUV << 4) | JPEG_FMT_H1V1:
JPEG->IMGSTR = ((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_YLINE_Pos) |
((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_UVLINE_Pos);
break;
case (JPEG_OUT_YUV << 4) | JPEG_FMT_H2V1:
case (JPEG_OUT_YUV << 4) | JPEG_FMT_H2V2:
JPEG->IMGSTR = ((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_YLINE_Pos) |
((int)ceil(jfif_info->Width / 8.0) << JPEG_IMGSTR_UVLINE_Pos);
break;
case (JPEG_OUT_YUVsp << 4) | JPEG_FMT_H1V1:
JPEG->IMGSTR = ((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_YLINE_Pos) |
((int)ceil(jfif_info->Width / 2.0) << JPEG_IMGSTR_UVLINE_Pos);
break;
case (JPEG_OUT_YUVsp << 4) | JPEG_FMT_H2V1:
case (JPEG_OUT_YUVsp << 4) | JPEG_FMT_H2V2:
JPEG->IMGSTR = ((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_YLINE_Pos) |
((int)ceil(jfif_info->Width / 4.0) << JPEG_IMGSTR_UVLINE_Pos);
break;
}
}
for(i = 0; i < jfif_info->QTableCnt; i++)
{
for(j = 0; j < 16; j++)
{
JPEGx->QTABLE[i][j] = ((uint32_t *)&jfif_info->QTable[i])[j];
}
}
for(i = 0; i < jfif_info->HTableCnt; i++)
{
/* DC Haffman Table */
for(j = 0; j < 12; j += 2)
{
JPEGx->HTABLE[i].DC_CODEWORD[j/2] = (jfif_info->HTable[i].DC.codeWord[j] << (16 - jfif_info->HTable[i].DC.codeLen[j])) |
(jfif_info->HTable[i].DC.codeWord[j+1] << (32 - jfif_info->HTable[i].DC.codeLen[j+1]));
}
for(j = 10; j > 1; j -= 2)
{
if((jfif_info->HTable[i].DC.codeWord[j+1] == 0) && (jfif_info->HTable[i].DC.codeWord[j] == 0))
JPEGx->HTABLE[i].DC_CODEWORD[j/2] = 0xFFFFFFFF;
else if(jfif_info->HTable[i].DC.codeWord[j+1] == 0)
JPEGx->HTABLE[i].DC_CODEWORD[j/2] = 0xFFFF0000 | (jfif_info->HTable[i].DC.codeWord[j] << (16 - jfif_info->HTable[i].DC.codeLen[j]));
else
break;
}
JPEGx->HTABLE[i].DC_CODELEN[0] = ((jfif_info->HTable[i].DC.codeLen[0] ? jfif_info->HTable[i].DC.codeLen[0] - 1 : 0) << 0) |
((jfif_info->HTable[i].DC.codeLen[1] ? jfif_info->HTable[i].DC.codeLen[1] - 1 : 0) << 4) |
((jfif_info->HTable[i].DC.codeLen[2] ? jfif_info->HTable[i].DC.codeLen[2] - 1 : 0) << 8) |
((jfif_info->HTable[i].DC.codeLen[3] ? jfif_info->HTable[i].DC.codeLen[3] - 1 : 0) << 12) |
((jfif_info->HTable[i].DC.codeLen[4] ? jfif_info->HTable[i].DC.codeLen[4] - 1 : 0) << 16) |
((jfif_info->HTable[i].DC.codeLen[5] ? jfif_info->HTable[i].DC.codeLen[5] - 1 : 0) << 20) |
((jfif_info->HTable[i].DC.codeLen[6] ? jfif_info->HTable[i].DC.codeLen[6] - 1 : 0) << 24) |
((jfif_info->HTable[i].DC.codeLen[7] ? jfif_info->HTable[i].DC.codeLen[7] - 1 : 0) << 28);
JPEGx->HTABLE[i].DC_CODELEN[1] = ((jfif_info->HTable[i].DC.codeLen[8] ? jfif_info->HTable[i].DC.codeLen[8] - 1 : 0) << 0) |
((jfif_info->HTable[i].DC.codeLen[9] ? jfif_info->HTable[i].DC.codeLen[9] - 1 : 0) << 4) |
((jfif_info->HTable[i].DC.codeLen[10] ? jfif_info->HTable[i].DC.codeLen[10]- 1 : 0) << 8) |
((jfif_info->HTable[i].DC.codeLen[11] ? jfif_info->HTable[i].DC.codeLen[11]- 1 : 0) << 12);
JPEGx->HTABLE[i].DC_CODEVAL[0] = (jfif_info->HTable[i].DC.codeVal[0] << 0) |
(jfif_info->HTable[i].DC.codeVal[1] << 4) |
(jfif_info->HTable[i].DC.codeVal[2] << 8) |
(jfif_info->HTable[i].DC.codeVal[3] << 12) |
(jfif_info->HTable[i].DC.codeVal[4] << 16) |
(jfif_info->HTable[i].DC.codeVal[5] << 20) |
(jfif_info->HTable[i].DC.codeVal[6] << 24) |
(jfif_info->HTable[i].DC.codeVal[7] << 28);
JPEGx->HTABLE[i].DC_CODEVAL[1] = (jfif_info->HTable[i].DC.codeVal[8] << 0) |
(jfif_info->HTable[i].DC.codeVal[9] << 4) |
(jfif_info->HTable[i].DC.codeVal[10]<< 8) |
(jfif_info->HTable[i].DC.codeVal[11]<< 12);
/* AC Haffman Table */
uint16_t minCode[16]; // mini code word for each lenght
uint8_t minIndx[16]; // index of mincode
uint8_t prelen; // preiou Len
memset(minCode, 0, sizeof(minCode));
memset(minIndx, 0, sizeof(minIndx));
for(j = 0, prelen = 0; j < 162; j++)
{
if(jfif_info->HTable[i].AC.codeLen[j] == 0) break;
if(jfif_info->HTable[i].AC.codeLen[j] != prelen)
{
minCode[jfif_info->HTable[i].AC.codeLen[j] - 1] = jfif_info->HTable[i].AC.codeWord[j] << (16 - jfif_info->HTable[i].AC.codeLen[j]);
minIndx[jfif_info->HTable[i].AC.codeLen[j] - 1] = j;
prelen = jfif_info->HTable[i].AC.codeLen[j];
}
}
if(minCode[15] == 0) minCode[15] = 0xFFFF;
for(j = 14; j > jfif_info->HTable[i].AC.codeLen[0] - 1; j--)
{
if(minCode[j] == 0) minCode[j] = minCode[j+1];
}
for(j = 0; j < 16; j += 2)
{
JPEGx->HTABLE[i].AC_CODEWORD[j/2] = (minCode[j] << 0) |
(minCode[j+1] << 16);
}
for(j = 0; j < 16; j += 4)
{
JPEGx->HTABLE[i].AC_CODEADDR[j/4] = (minIndx[j] << 0) |
(minIndx[j+1] << 8) |
(minIndx[j+2] << 16) |
(minIndx[j+3] << 24);
}
for(j = 0; j < 164; j += 4)
{
JPEGx->HTABLE[i].AC_CODEVAL[j/4] = (jfif_info->HTable[i].AC.codeVal[j] << 0) |
(jfif_info->HTable[i].AC.codeVal[j+1] << 8) |
(jfif_info->HTable[i].AC.codeVal[j+2] << 16) |
(jfif_info->HTable[i].AC.codeVal[j+3] << 24);
}
}
JPEGx->CR = (1 << JPEG_CR_LASTBUF_Pos) |
(1 << JPEG_CR_START_Pos);
}
/******************************************************************************************************************************************
* 函数名称: JPEG_DecodeBusy()
* 功能说明: JPEG解码器忙查询
* 输 入: JPEG_TypeDef * JPEGx 指定要被设置的JPEG解码器有效值包括JPEG
* 输 出: uint32_t 1 正在解码 0 空闲,未在解码
* 注意事项: 无
******************************************************************************************************************************************/
uint32_t JPEG_DecodeBusy(JPEG_TypeDef * JPEGx)
{
return (JPEGx->SR & JPEG_SR_BUSY_Msk) ? 1 : 0;
}