/* $Xorg: etiffpb.c,v 1.3 2000/08/17 19:47:39 cpqbld Exp $ */ /* AGE Logic - Oct 15 1995 - Larry Hare */ /**** module etiffpb.h ****/ /****************************************************************************** Copyright 1993, 1994,1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. 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Title to this software shall at all times remain with AGE Logic, Inc. ****************************************************************************** etiffpb.c -- DDXIE module for encoding TIFF PackBits format Ben Fahy, AGE Logic, Sept 1993 ******************************************************************************/ #include "fax.h" #define _PBits #include "fencode.h" #include "xiemd.h" /************************************************************************/ encode_tiffpb(state) FaxEncodeState *state; { /* stuff exchanged with state variable */ register int goal; register unsigned char *byteptr; register unsigned char *endptr; register int width; register int rl; PackBitsEncodePvt *epvt; /* stuff exchanged with private state variable */ int index; int start; int nlits; int nvals; register int *counts; register int *values; register int lines_coded=0; register int lines_to_code=0; register int rlcode,lits_to_write; register int bytes_out; if (state == (FaxEncodeState *) NULL) return(-1); /* set up initial bitstream for the very first output strip */ if (!state->bits.started) { if (state->strip_state != StripStateNew) { state->encoder_done = ENCODE_ERROR_StripStateNotNew; return(-1); } state->bits.byteptr = (unsigned char *)state->strip; state->bits.endptr = state->bits.byteptr + state->strip_size; /* record end of output strip */ state->bits.bitpos = 0; state->bits.started = 1; state->strip_state = StripStateInUse; } /* or, reset bitstream for a new output strip */ if (state->magic_needs) { if (state->strip_state == StripStateNew) { state->strip_state = StripStateInUse; state->bits.byteptr = (unsigned char *)state->strip; state->bits.endptr = state->bits.byteptr + state->strip_size; /* record end of output strip */ state->bits.bitpos = 0; state->bits.started = 1; } else { /* no new strip?? But... I *need* more data! */ state->encoder_done = ENCODE_ERROR_BadMagic; return(-1); } state->magic_needs = 0; } localize_state(state); /*** Main Encoding Loop ***/ while (1) { switch(goal) { case ENCODE_PB_GOAL_StartNewLine: /* every new line we need to compute its runlength data */ { register unsigned char *ibptr=NULL; register unsigned char *ebptr=NULL; register int color0,color1, n_reps; if (lines_coded >= state->nl_tocode) { /* We have read the whole input strip, need more data */ save_state_and_return(state); } ibptr = (unsigned char *) state->i_lines[lines_coded]; ebptr = ibptr+(width+7)/8; #if (IMAGE_BYTE_ORDER == MSBFirst) color0 = *ibptr++; #else color0 = _ByteReverseTable[*ibptr++]; #endif n_reps = 1; nvals = 0; epvt->values[nvals] = color0; while (ibptr < ebptr) { #if (IMAGE_BYTE_ORDER == MSBFirst) color1 = *ibptr++; #else color1 = _ByteReverseTable[*ibptr++]; #endif if (color1 == color0) ++n_reps; else { epvt->counts[nvals++] = n_reps; color0 = color1; n_reps = 1; epvt->values[nvals] = color0; } } epvt->counts[nvals++] = n_reps; epvt->nvals = nvals; } /* now that we have an encoding of the line in runlengths, we need to decide what we write out as R V, where R is the runlength and V is the value, vs L V1 V2 ... VL where Vi are individual values and L is the number of literal values that follow. There isn't really any advantage to coding runlengths of size 2 or less, so we will only code as a runlength for runs of 3 or more. */ index = 0; /* where we are in our list of runs and values */ start = 0; /* where we were when we started */ nlits = 0; /* number of literals we will concatenate */ goal = ENCODE_PB_GOAL_OutputNextRunLength; case ENCODE_PB_GOAL_OutputNextRunLength: /* starting from the current index, search for the first runlength of three or more. Everything before then will be encoded as a string of literals. */ start = index; while (index < nvals && (rl = counts[index]) < 3) { nlits += rl; ++index; } if (start != index) { /* Note: we can never call FlushLiterals when start >= nvals, because index <= nvals, and start < index if here */ goal = ENCODE_PB_GOAL_FlushLiterals; } else { /* found a suitable runlength */ goal = ENCODE_PB_GOAL_FlushRunLength; } break; case ENCODE_PB_GOAL_FlushRunLength: if (!rl) { state->encoder_done = ENCODE_ERROR_BadRunLength; save_state_and_return(state); } /* Packbits represents runlengths as rl = 1 - rlcode, where */ /* rlcode is a negative number between -1 and -127. So we */ /* may have to break a number larger than 128 into multiple */ /* runlengths */ if (rl <= 128) { rlcode = 1-rl; /* encode the runlength */ rl = 0; } else { rlcode = -127; /* encode the maximum */ rl -= 128; } /* before writing, make sure we aren't off end of strip */ if ( byteptr >= endptr) { goal = ENCODE_PB_GOAL_WriteCodeForRunLength; state->strip_state = StripStateDone; state->magic_needs = 1; save_state_and_return(state); } case ENCODE_PB_GOAL_WriteCodeForRunLength: *byteptr++ = rlcode; /* before writing, make sure we aren't off end of strip */ if ( byteptr >= endptr) { goal = ENCODE_PB_GOAL_WriteValueForRunLength; state->strip_state = StripStateDone; state->magic_needs = 1; save_state_and_return(state); } case ENCODE_PB_GOAL_WriteValueForRunLength: *byteptr++ = values[index]; if (!rl) { if (++index >= nvals) { /* see if done with line */ ++lines_coded; goal = ENCODE_PB_GOAL_StartNewLine; } else goal = ENCODE_PB_GOAL_OutputNextRunLength; } else goal = ENCODE_PB_GOAL_FlushRunLength; break; case ENCODE_PB_GOAL_FlushLiterals: /* Packbits represents literal lengths as rl = 1 + rlcode, */ /* rlcode is a number between 0 and 127. So we have to break */ /* break numbers larger than 128 into multiple runlengths */ if (nlits <= 128) { rlcode = nlits-1; /* encode the runlength */ nlits = 0; } else { rlcode = 127; /* encode the maximum */ nlits -= 128; } rl = 1 + rlcode; /* need this for comparison later */ bytes_out = 0; /* ditto. bytes_out must be <= rl */ /* before writing, make sure we aren't off end of strip */ if ( byteptr >= endptr) { goal = ENCODE_PB_GOAL_WriteNlits; state->strip_state = StripStateDone; state->magic_needs = 1; save_state_and_return(state); } case ENCODE_PB_GOAL_WriteNlits: *byteptr++ = rlcode; goal = ENCODE_PB_GOAL_WriteLiterals; /* note that lits_to_write is always 1 or 2 */ case ENCODE_PB_GOAL_WriteLiterals: /* this is actually a loop. 'start' gets incremented each */ /* time through until it is equal to 'index'. We never get */ /* to this point unless start < nvals, though */ lits_to_write = counts[start]; goal = ENCODE_PB_GOAL_WriteThisLiteral; case ENCODE_PB_GOAL_WriteThisLiteral: /* before writing, make sure we aren't off end of strip */ if ( byteptr >= endptr) { goal = ENCODE_PB_GOAL_WriteTheLiteral; state->strip_state = StripStateDone; state->magic_needs = 1; save_state_and_return(state); } case ENCODE_PB_GOAL_WriteTheLiteral: *byteptr++ = values[start]; if (++bytes_out >= 128 && nlits) { /* we have written the maximum amount we can */ /* write at a time, yet we know there are more */ /* to write out. */ goal = ENCODE_PB_GOAL_FlushLiterals; /* If we need to write current value some more, */ /* change count so we don't write extra */ if (--lits_to_write) counts[start] = lits_to_write; else { /* otherwise, advance position */ ++start; } /* note that we KNOW we have to write more literals */ /* so it is safe to increment 'start', which could */ /* only be equal to 'index' if we were done */ break; } else if (--lits_to_write) { /* loop back and write this value again */ goal = ENCODE_PB_GOAL_WriteThisLiteral; break; } /* If here, we are done with this literal */ if (++start < index) { /* if other literals to write, loop back */ goal = ENCODE_PB_GOAL_WriteLiterals; break; } /* ok, we wrote out all the literals */ if (index >= nvals) { /* see if done with line */ ++lines_coded; goal = ENCODE_PB_GOAL_StartNewLine; } else goal = ENCODE_PB_GOAL_OutputNextRunLength; break; default: state->encoder_done = ENCODE_ERROR_BadMagic; save_state_and_return(state); break; } /* end of switch(goal) in main decoding loop */ } /* end of main encoding loop */ } /************************************************************************/