kolibrios/contrib/media/updf_newlib/draw/arch_arm.c
maxcodehack dd0cf276d2 Upload uPDF port to newlib
git-svn-id: svn://kolibrios.org@8402 a494cfbc-eb01-0410-851d-a64ba20cac60
2020-12-14 10:37:08 +00:00

233 lines
6.1 KiB
C
Executable File

/*
* ARM specific render optims live here
*/
#include "fitz.h"
typedef unsigned char byte;
/* always surround cpu specific code with HAVE_XXX */
#ifdef ARCH_ARM
/* from imagescalearm.s */
extern void fz_srow4_arm(byte *src, byte *dst, int w, int denom);
extern void fz_scol4_arm(byte *src, byte *dst, int w, int denom);
static void
path_w4i1o4_arm(byte * restrict rgba, byte * restrict src, byte cov, int len, byte * restrict dst)
{
/* The ARM code here is a hand coded implementation of the optimized C version. */
if (len <= 0)
return;
asm volatile(
"ldr %0, [%0] @ %0 = rgba \n"
"mov r11,#0 \n"
"mov r8, #0xFF00 \n"
"mov r14,%0,lsr #24 @ r14= alpha \n"
"orr %0, %0, #0xFF000000 @ %0 = rgba |= 0xFF000000 \n"
"orr r8, r8, r8, LSL #16 @ r8 = 0xFF00FF00 \n"
"adds r14,r14,r14,LSR #7 @ r14 = alpha += alpha>>7 \n"
"beq 9f @ if (alpha == 0) bale \n"
"and r6, %0, r8 @ r6 = ga<<8 \n"
"bic %0, %0, r8 @ %0 = rb \n"
"mov r6, r6, LSR #8 @ r6 = ga \n"
"cmp r14,#256 @ if (alpha == 256) \n"
"beq 4f @ no-alpha loop \n"
"B 2f @ enter the loop \n"
"1: @ Loop used for when coverage*alpha == 0 \n"
"subs %3, %3, #1 @ len-- \n"
"ble 9f \n"
"2: \n"
"ldrb r12,[%1] @ r12= *src \n"
"ldr r9, [%4], #4 @ r9 = drb = *dst32++ \n"
"strb r11,[%1], #1 @ r11= *src++ = 0 \n"
"add %2, r12, %2 @ %2 = cov += r12 \n"
"ands %2, %2, #255 @ %2 = cov &= 255 \n"
"beq 1b @ if coverage == 0 loop back \n"
"add r10,%2, %2, LSR #7 @ r10= ca = cov+(cov>>7) \n"
"mul r10,r14,r10 @ r10= ca *= alpha \n"
"and r7, r8, r9 @ r7 = dga = drb & MASK \n"
"mov r10,r10,LSR #8 @ r10= ca >>= 8 \n"
"and r9, r8, r9, LSL #8 @ r9 = drb = (drb<<8) & MASK \n"
"sub r12,r6, r7, LSR #8 @ r12= cga = ga - (dga>>8) \n"
"sub r5, %0, r9, LSR #8 @ r5 = crb = rb - (drb>>8) \n"
"mla r7, r12,r10,r7 @ r7 = dga += cga * ca \n"
"subs %3, %3, #1 @ len-- \n"
"mla r9, r5, r10,r9 @ r9 = drb += crb * ca \n"
"and r7, r8, r7 @ r7 = dga &= MASK \n"
"and r9, r8, r9 @ r9 = drb &= MASK \n"
"orr r9, r7, r9, LSR #8 @ r9 = drb = dga | (drb>>8) \n"
"str r9, [%4, #-4] @ dst32[-1] = r9 \n"
"bgt 2b \n"
"b 9f \n"
"@ --- Solid alpha loop --------------------------------------- \n"
"3: @ Loop used when coverage == 256 \n"
"orr r9, %0, r6, LSL #8 @ r9 = rgba \n"
"str r9, [%4, #-4] @ dst32[-1] = r9 \n"
"4: @ Loop used for when coverage*alpha == 0 \n"
"subs %3, %3, #1 @ len-- \n"
"ble 9f \n"
"5: \n"
"ldrb r12,[%1] @ r12= *src \n"
"ldr r9, [%4], #4 @ r9 = drb = *dst32++ \n"
"strb r11,[%1], #1 @ r11= *src++ = 0 \n"
"add %2, r12, %2 @ %2 = cov += r12 \n"
"ands %2, %2, #255 @ %2 = cov &= 255 \n"
"beq 4b @ if coverage == 0 loop back \n"
"cmp %2, #255 @ if coverage == solid \n"
"beq 3b @ loop back \n"
"add r10,%2, %2, LSR #7 @ r10= ca = cov+(cov>>7) \n"
"and r7, r8, r9 @ r7 = dga = drb & MASK \n"
"and r9, r8, r9, LSL #8 @ r9 = dga = (drb<<8) & MASK \n"
"sub r12,r6, r7, LSR #8 @ r12= cga = ga - (dga>>8) \n"
"sub r5, %0, r9, LSR #8 @ r5 = crb = rb - (drb>>8) \n"
"mla r7, r12,r10,r7 @ r7 = dga += cga * ca \n"
"subs %3, %3, #1 @ len-- \n"
"mla r9, r5, r10,r9 @ r9 = drb += crb * ca \n"
"and r7, r8, r7 @ r7 = dga &= MASK \n"
"and r9, r8, r9 @ r9 = drb &= MASK \n"
"orr r9, r7, r9, LSR #8 @ r9 = drb = dga | (drb>>8) \n"
"str r9, [%4, #-4] @ dst32[-1] = r9 \n"
"bgt 5b \n"
"9: @ End \n"
:
"+r" (rgba),
"+r" (src),
"+r" (cov),
"+r" (len),
"+r" (dst)
:
:
"r5","r6","r7","r8","r9","r10","r11","r12","r14","memory","cc"
);
}
static void load_tile8_arm(byte * restrict src, int sw, byte * restrict dst, int dw, int w, int h, int pad)
{
if ((h == 0) || (w == 0))
return;
switch (pad)
{
case 0:
while (h--)
{
memcpy(dst, src, w);
src += sw;
dst += dw;
}
break;
case 1:
sw -= w;
dw -= w<<1;
asm volatile(
"MOV r11,#255 \n"
"1: \n"
"MOV r5, %[w] @ r5 = x = w \n"
"2: \n"
"LDRB r4, [%[src]], #1 @ r4 = *src++ \n"
"SUBS r5, r5, #1 \n"
"STRB r4, [%[dst]], #1 @ *dst++ = r4 \n"
"STRB r11,[%[dst]], #1 @ *dst++ = 255 \n"
"BGT 2b \n"
"ADD %[src],%[src],%[sw] @ src += sw \n"
"ADD %[dst],%[dst],%[dw] @ dst += dw \n"
"SUBS %[h],%[h],#1 \n"
"BGT 1b \n"
:
[src] "+r" (src),
[sw] "+r" (sw),
[dst] "+r" (dst),
[dw] "+r" (dw),
[h] "+r" (h),
[w] "+r" (w)
:
:
"r4","r5","r11","memory","cc"
);
break;
case 3:
sw -= w;
asm volatile(
"MOV r11,#255 \n"
"1: \n"
"MOV r5, %[w] @ r5 = x = w \n"
"MOV r8, %[dst] @ r8 = dp = dst \n"
"2: \n"
"LDRB r4, [%[src]], #1 @ r4 = *src++ \n"
"LDRB r6, [%[src]], #1 @ r6 = *src++ \n"
"LDRB r7, [%[src]], #1 @ r7 = *src++ \n"
"SUBS r5, r5, #3 \n"
"STRB r4, [r8], #1 @ *dp++ = r4 \n"
"STRB r6, [r8], #1 @ *dp++ = r6 \n"
"STRB r7, [r8], #1 @ *dp++ = r7 \n"
"STRB r11,[r8], #1 @ *dp++ = 255 \n"
"BGT 2b \n"
"ADD %[src],%[src],%[sw] @ src += sw \n"
"ADD %[dst],%[dst],%[dw] @ dst += dw \n"
"SUBS %[h],%[h],#1 \n"
"BGT 1b \n"
:
[src] "+r" (src),
[sw] "+r" (sw),
[dst] "+r" (dst),
[dw] "+r" (dw),
[h] "+r" (h),
[w] "+r" (w)
:
:
"r4","r5","r6","r7","r8","r11","memory","cc"
);
break;
default:
sw -= w;
asm volatile(
"mov r9,#255 \n"
"1: \n"
"mov r7, %[dst] @ r7 = dp = dst \n"
"mov r8, #1 @ r8 = tpad = 1 \n"
"mov r14,%[w] @ r11= x = w \n"
"2: \n"
"ldrb r10,[%[src]],#1 \n"
"subs r8, r8, #1 \n"
"moveq r8, %[pad] \n"
"streqb r9, [r7], #1 \n"
"strb r10,[r7], #1 \n"
"subs r14,r14, #1 \n"
"bgt 2b \n"
"add %[src],%[src],%[sw] \n"
"add %[dst],%[dst],%[dw] \n"
"subs %[h], %[h], #1 \n"
"bgt 1b \n"
:
[src] "+r" (src),
[sw] "+r" (sw),
[dst] "+r" (dst),
[dw] "+r" (dw),
[h] "+r" (h),
[w] "+r" (w),
[pad] "+r" (pad)
:
:
"r7","r8","r9","r10","r14","memory","cc"
);
break;
}
}
void
fz_accelerate_arch(void)
{
fz_path_w4i1o4 = path_w4i1o4_arm;
fz_loadtile8 = load_tile8_arm;
fz_srow4 = fz_srow4_arm;
fz_scol4 = fz_scol4_arm;
}
#endif