Grok 12.0.1
Macros | Functions
mqc_enc_inl.h File Reference

Go to the source code of this file.

Macros

#define mqc_renorme_macro(mqc, a_, c_, ct_)
 Renormalize mqc->a and mqc->c while compressing, so that mqc->a stays between 0x8000 and 0x10000.
 
#define mqc_codemps_macro(mqc, curctx, a, c, ct)
 
#define mqc_codelps_macro(mqc, curctx, a, c, ct)
 
#define mqc_encode_macro(mqc, curctx, a, c, ct, d)
 
#define mqc_bypass_enc_macro(mqc, c, ct, d)
 

Functions

void mqc_byteout (mqcoder *mqc)
 Output a byte, doing bit-stuffing if necessary.
 

Macro Definition Documentation

◆ mqc_bypass_enc_macro

#define mqc_bypass_enc_macro ( mqc,
c,
ct,
d )
Value:
{ \
if(ct == BYPASS_CT_INIT) \
ct = 8; \
ct--; \
c = c + ((d) << ct); \
if(ct == 0) \
{ \
*mqc->bp = (uint8_t)c; \
ct = 8; \
/* If the previous byte was 0xff, make sure that the next msb is 0 */ \
if(*mqc->bp == 0xff) \
ct = 7; \
mqc->bp++; \
c = 0; \
} \
}
#define BYPASS_CT_INIT
Definition mqc_inl.h:24

◆ mqc_codelps_macro

#define mqc_codelps_macro ( mqc,
curctx,
a,
c,
ct )
Value:
{ \
a -= (*curctx)->qeval; \
if(a < (*curctx)->qeval) \
c += (*curctx)->qeval; \
else \
a = (*curctx)->qeval; \
*curctx = (*curctx)->nlps; \
mqc_renorme_macro(mqc, a, c, ct); \
}

◆ mqc_codemps_macro

#define mqc_codemps_macro ( mqc,
curctx,
a,
c,
ct )
Value:
{ \
a -= (*curctx)->qeval; \
if((a & 0x8000) == 0) \
{ \
if(a < (*curctx)->qeval) \
a = (*curctx)->qeval; \
else \
c += (*curctx)->qeval; \
*curctx = (*curctx)->nmps; \
mqc_renorme_macro(mqc, a, c, ct); \
} \
else \
{ \
c += (*curctx)->qeval; \
} \
}

◆ mqc_encode_macro

#define mqc_encode_macro ( mqc,
curctx,
a,
c,
ct,
d )
Value:
{ \
if((*curctx)->mps == (d)) \
mqc_codemps_macro(mqc, curctx, a, c, ct) else mqc_codelps_macro(mqc, curctx, a, c, ct) \
}
#define mqc_codelps_macro(mqc, curctx, a, c, ct)
Definition mqc_enc_inl.h:73

Referenced by grk::T1::enc_clnpass().

◆ mqc_renorme_macro

#define mqc_renorme_macro ( mqc,
a_,
c_,
ct_ )
Value:
{ \
do \
{ \
a_ <<= 1; \
c_ <<= 1; \
ct_--; \
if(ct_ == 0) \
{ \
mqc->c = c_; \
mqc_byteout(mqc); \
c_ = mqc->c; \
ct_ = mqc->ct; \
} \
} while((a_ & 0x8000) == 0); \
}

Renormalize mqc->a and mqc->c while compressing, so that mqc->a stays between 0x8000 and 0x10000.

Parameters
mqcMQC handle
a_value of mqc->a
c_value of mqc->c_
ct_value of mqc->ct_

Function Documentation

◆ mqc_byteout()

void mqc_byteout ( mqcoder * mqc)

Output a byte, doing bit-stuffing if necessary.

After a 0xff byte, the next byte must be smaller than 0x90.

Parameters
mqcMQC handle