;******************************************************************** ;* * ;* THIS FILE IS PART OF THE OggTheora SOFTWARE CODEC SOURCE CODE. * ;* USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * ;* GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * ;* IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * ;* * ;* THE Theora SOURCE CODE IS COPYRIGHT (C) 2002-2010 * ;* by the Xiph.Org Foundation and contributors http://www.xiph.org/ * ;* * ;******************************************************************** ; ; function: ; last mod: $Id$ ; ;******************************************************************** AREA |.text|, CODE, READONLY EXPORT oc_pack_read_arm EXPORT oc_pack_read1_arm EXPORT oc_huff_token_decode_arm oc_pack_read1_arm PROC ; r0 = oc_pack_buf *_b ADD r12,r0,#8 LDMIA r12,{r2,r3} ; r2 = window ; Stall... ; r3 = available ; Stall... SUBS r3,r3,#1 ; r3 = available-1, available<1 => LT BLT oc_pack_read1_refill MOV r0,r2,LSR #31 ; r0 = window>>31 MOV r2,r2,LSL #1 ; r2 = window<<=1 STMIA r12,{r2,r3} ; window = r2 ; available = r3 MOV PC,r14 ENDP oc_pack_read_arm PROC ; r0 = oc_pack_buf *_b ; r1 = int _bits ADD r12,r0,#8 LDMIA r12,{r2,r3} ; r2 = window ; Stall... ; r3 = available ; Stall... SUBS r3,r3,r1 ; r3 = available-_bits, available<_bits => LT BLT oc_pack_read_refill RSB r0,r1,#32 ; r0 = 32-_bits MOV r0,r2,LSR r0 ; r0 = window>>32-_bits MOV r2,r2,LSL r1 ; r2 = window<<=_bits STMIA r12,{r2,r3} ; window = r2 ; available = r3 MOV PC,r14 ; We need to refill window. oc_pack_read1_refill MOV r1,#1 oc_pack_read_refill STMFD r13!,{r10,r11,r14} LDMIA r0,{r10,r11} ; r10 = stop ; r11 = ptr RSB r0,r1,#32 ; r0 = 32-_bits RSB r3,r3,r0 ; r3 = 32-available ; We can use unsigned compares for both the pointers and for available ; (allowing us to chain condition codes) because available will never be ; larger than 32 (or we wouldn't be here), and thus 32-available will never be ; negative. CMP r10,r11 ; ptr HI CMPHI r3,#7 ; available<=24 => HI LDRHIB r14,[r11],#1 ; r14 = *ptr++ SUBHI r3,#8 ; available += 8 ; (HI) Stall... ORRHI r2,r14,LSL r3 ; r2 = window|=r14<<32-available CMPHI r10,r11 ; ptr HI CMPHI r3,#7 ; available<=24 => HI LDRHIB r14,[r11],#1 ; r14 = *ptr++ SUBHI r3,#8 ; available += 8 ; (HI) Stall... ORRHI r2,r14,LSL r3 ; r2 = window|=r14<<32-available CMPHI r10,r11 ; ptr HI CMPHI r3,#7 ; available<=24 => HI LDRHIB r14,[r11],#1 ; r14 = *ptr++ SUBHI r3,#8 ; available += 8 ; (HI) Stall... ORRHI r2,r14,LSL r3 ; r2 = window|=r14<<32-available CMPHI r10,r11 ; ptr HI CMPHI r3,#7 ; available<=24 => HI LDRHIB r14,[r11],#1 ; r14 = *ptr++ SUBHI r3,#8 ; available += 8 ; (HI) Stall... ORRHI r2,r14,LSL r3 ; r2 = window|=r14<<32-available SUBS r3,r0,r3 ; r3 = available-=_bits, available GT BLT oc_pack_read_refill_last MOV r0,r2,LSR r0 ; r0 = window>>32-_bits MOV r2,r2,LSL r1 ; r2 = window<<=_bits STR r11,[r12,#-4] ; ptr = r11 STMIA r12,{r2,r3} ; window = r2 ; available = r3 LDMFD r13!,{r10,r11,PC} ; Either we wanted to read more than 24 bits and didn't have enough room to ; stuff the last byte into the window, or we hit the end of the packet. oc_pack_read_refill_last CMP r11,r10 ; ptr LO ; If we didn't hit the end of the packet, then pull enough of the next byte to ; to fill up the window. LDRLOB r14,[r11] ; (LO) r14 = *ptr ; Otherwise, set the EOF flag and pretend we have lots of available bits. MOVHS r14,#1 ; (HS) r14 = 1 ADDLO r10,r3,r1 ; (LO) r10 = available STRHS r14,[r12,#8] ; (HS) eof = 1 ANDLO r10,r10,#7 ; (LO) r10 = available&7 MOVHS r3,#1<<30 ; (HS) available = OC_LOTS_OF_BITS ORRLO r2,r14,LSL r10 ; (LO) r2 = window|=*ptr>>(available&7) MOV r0,r2,LSR r0 ; r0 = window>>32-_bits MOV r2,r2,LSL r1 ; r2 = window<<=_bits STR r11,[r12,#-4] ; ptr = r11 STMIA r12,{r2,r3} ; window = r2 ; available = r3 LDMFD r13!,{r10,r11,PC} ENDP oc_huff_token_decode_arm PROC ; r0 = oc_pack_buf *_b ; r1 = const ogg_int16_t *_tree STMFD r13!,{r4,r5,r10,r14} LDRSH r10,[r1] ; r10 = n=_tree[0] LDMIA r0,{r2-r5} ; r2 = stop ; Stall... ; r3 = ptr ; Stall... ; r4 = window ; r5 = available CMP r10,r5 ; n>available => GT BGT oc_huff_token_decode_refill0 RSB r14,r10,#32 ; r14 = 32-n MOV r14,r4,LSR r14 ; r14 = bits=window>>32-n ADD r14,r1,r14,LSL #1 ; r14 = _tree+bits LDRSH r12,[r14,#2] ; r12 = node=_tree[1+bits] ; Stall... ; Stall... RSBS r14,r12,#0 ; r14 = -node, node>0 => MI BMI oc_huff_token_decode_continue MOV r10,r14,LSR #8 ; r10 = n=node>>8 MOV r4,r4,LSL r10 ; r4 = window<<=n SUB r5,r10 ; r5 = available-=n STMIB r0,{r3-r5} ; ptr = r3 ; window = r4 ; available = r5 AND r0,r14,#255 ; r0 = node&255 LDMFD r13!,{r4,r5,r10,pc} ; The first tree node wasn't enough to reach a leaf, read another oc_huff_token_decode_continue ADD r12,r1,r12,LSL #1 ; r12 = _tree+node MOV r4,r4,LSL r10 ; r4 = window<<=n SUB r5,r5,r10 ; r5 = available-=n LDRSH r10,[r12],#2 ; r10 = n=_tree[node] ; Stall... ; r12 = _tree+node+1 ; Stall... CMP r10,r5 ; n>available => GT BGT oc_huff_token_decode_refill RSB r14,r10,#32 ; r14 = 32-n MOV r14,r4,LSR r14 ; r14 = bits=window>>32-n ADD r12,r12,r14 ; LDRSH r12,[r12,r14] ; r12 = node=_tree[node+1+bits] ; Stall... ; Stall... RSBS r14,r12,#0 ; r14 = -node, node>0 => MI BMI oc_huff_token_decode_continue MOV r10,r14,LSR #8 ; r10 = n=node>>8 MOV r4,r4,LSL r10 ; r4 = window<<=n SUB r5,r10 ; r5 = available-=n STMIB r0,{r3-r5} ; ptr = r3 ; window = r4 ; available = r5 AND r0,r14,#255 ; r0 = node&255 LDMFD r13!,{r4,r5,r10,pc} oc_huff_token_decode_refill0 ADD r12,r1,#2 ; r12 = _tree+1 oc_huff_token_decode_refill ; We can't possibly need more than 15 bits, so available must be <= 15. ; Therefore we can load at least two bytes without checking it. CMP r2,r3 ; ptr HI LDRHIB r14,[r3],#1 ; r14 = *ptr++ RSBHI r5,r5,#24 ; (HI) available = 32-(available+=8) RSBLS r5,r5,#32 ; (LS) r5 = 32-available ORRHI r4,r14,LSL r5 ; r4 = window|=r14<<32-available CMPHI r2,r3 ; ptr HI LDRHIB r14,[r3],#1 ; r14 = *ptr++ SUBHI r5,#8 ; available += 8 ; (HI) Stall... ORRHI r4,r14,LSL r5 ; r4 = window|=r14<<32-available ; We can use unsigned compares for both the pointers and for available ; (allowing us to chain condition codes) because available will never be ; larger than 32 (or we wouldn't be here), and thus 32-available will never be ; negative. CMPHI r2,r3 ; ptr HI CMPHI r5,#7 ; available<=24 => HI LDRHIB r14,[r3],#1 ; r14 = *ptr++ SUBHI r5,#8 ; available += 8 ; (HI) Stall... ORRHI r4,r14,LSL r5 ; r4 = window|=r14<<32-available CMP r2,r3 ; ptr HI MOVLS r5,#-1<<30 ; (LS) available = OC_LOTS_OF_BITS+32 CMPHI r5,#7 ; (HI) available<=24 => HI LDRHIB r14,[r3],#1 ; (HI) r14 = *ptr++ SUBHI r5,#8 ; (HI) available += 8 ; (HI) Stall... ORRHI r4,r14,LSL r5 ; (HI) r4 = window|=r14<<32-available RSB r14,r10,#32 ; r14 = 32-n MOV r14,r4,LSR r14 ; r14 = bits=window>>32-n ADD r12,r12,r14 ; LDRSH r12,[r12,r14] ; r12 = node=_tree[node+1+bits] RSB r5,r5,#32 ; r5 = available ; Stall... RSBS r14,r12,#0 ; r14 = -node, node>0 => MI BMI oc_huff_token_decode_continue MOV r10,r14,LSR #8 ; r10 = n=node>>8 MOV r4,r4,LSL r10 ; r4 = window<<=n SUB r5,r10 ; r5 = available-=n STMIB r0,{r3-r5} ; ptr = r3 ; window = r4 ; available = r5 AND r0,r14,#255 ; r0 = node&255 LDMFD r13!,{r4,r5,r10,pc} ENDP END