From c7b8054714cff4580ddbdbf5c9d503b20ff45740 Mon Sep 17 00:00:00 2001 From: Thomas Martitz Date: Tue, 8 Nov 2011 21:39:23 +0000 Subject: Adapt the resize-on-load image scalers to support the alpha channel. Now 32bit BMPs with alpha channel can be up- and downscaled without losing transparency information. git-svn-id: svn://svn.rockbox.org/rockbox/trunk@30938 a1c6a512-1295-4272-9138-f99709370657 --- apps/recorder/resize.c | 122 ++++++++++++++++++++++++++----------------------- 1 file changed, 64 insertions(+), 58 deletions(-) (limited to 'apps/recorder/resize.c') diff --git a/apps/recorder/resize.c b/apps/recorder/resize.c index b570116179..a68a5f2e9f 100644 --- a/apps/recorder/resize.c +++ b/apps/recorder/resize.c @@ -70,6 +70,12 @@ #define MULQ(a, b) ((a) * (b)) #endif +#ifdef HAVE_LCD_COLOR +#define CHANNEL_BYTES (sizeof(struct uint32_argb)/sizeof(uint32_t)) +#else +#define CHANNEL_BYTES (sizeof(uint32_t)/sizeof(uint32_t)) /* packed */ +#endif + /* calculate the maximum dimensions which will preserve the aspect ration of src while fitting in the constraints passed in dst, and store result in dst, returning 0 if rounding and 1 if not rounding. @@ -171,9 +177,9 @@ static bool scale_h_area(void *out_line_ptr, h_o_val = ctx->h_o_val; #endif #ifdef HAVE_LCD_COLOR - struct uint32_rgb rgbvalacc = { 0, 0, 0 }, - rgbvaltmp = { 0, 0, 0 }, - *out_line = (struct uint32_rgb *)out_line_ptr; + struct uint32_argb rgbvalacc = { 0, 0, 0, 0 }, + rgbvaltmp = { 0, 0, 0, 0 }, + *out_line = (struct uint32_argb *)out_line_ptr; #else uint32_t acc = 0, tmp = 0, *out_line = (uint32_t*)out_line_ptr; #endif @@ -204,53 +210,65 @@ static bool scale_h_area(void *out_line_ptr, MAC(rgbvalacc.r, h_o_val, 0); MAC(rgbvalacc.g, h_o_val, 1); MAC(rgbvalacc.b, h_o_val, 2); + MAC(rgbvalacc.a, h_o_val, 3); MAC(rgbvaltmp.r, mul, 0); MAC(rgbvaltmp.g, mul, 1); MAC(rgbvaltmp.b, mul, 2); + MAC(rgbvaltmp.a, mul, 3); /* get new pixel , then add its partial coverage to this area */ mul = h_o_val - oxe; rgbvaltmp.r = part->buf->red; rgbvaltmp.g = part->buf->green; rgbvaltmp.b = part->buf->blue; + rgbvaltmp.a = part->buf->alpha; MAC(rgbvaltmp.r, mul, 0); MAC(rgbvaltmp.g, mul, 1); MAC(rgbvaltmp.b, mul, 2); + MAC(rgbvaltmp.a, mul, 3); MAC_OUT(rgbvalacc.r, 0); MAC_OUT(rgbvalacc.g, 1); MAC_OUT(rgbvalacc.b, 2); + MAC_OUT(rgbvalacc.b, 3); #else /* generic C math */ /* add saved partial pixel from start of area */ rgbvalacc.r = rgbvalacc.r * h_o_val + rgbvaltmp.r * mul; rgbvalacc.g = rgbvalacc.g * h_o_val + rgbvaltmp.g * mul; rgbvalacc.b = rgbvalacc.b * h_o_val + rgbvaltmp.b * mul; + rgbvalacc.a = rgbvalacc.a * h_o_val + rgbvaltmp.a * mul; /* get new pixel , then add its partial coverage to this area */ rgbvaltmp.r = part->buf->red; rgbvaltmp.g = part->buf->green; rgbvaltmp.b = part->buf->blue; + rgbvaltmp.a = part->buf->alpha; mul = h_o_val - oxe; rgbvalacc.r += rgbvaltmp.r * mul; rgbvalacc.g += rgbvaltmp.g * mul; rgbvalacc.b += rgbvaltmp.b * mul; + rgbvalacc.a += rgbvaltmp.a * mul; #endif /* CPU */ rgbvalacc.r = (rgbvalacc.r + (1 << 21)) >> 22; rgbvalacc.g = (rgbvalacc.g + (1 << 21)) >> 22; rgbvalacc.b = (rgbvalacc.b + (1 << 21)) >> 22; + rgbvalacc.a = (rgbvalacc.a + (1 << 21)) >> 22; /* store or accumulate to output row */ if (accum) { rgbvalacc.r += out_line[ox].r; rgbvalacc.g += out_line[ox].g; rgbvalacc.b += out_line[ox].b; + rgbvalacc.a += out_line[ox].a; } out_line[ox].r = rgbvalacc.r; out_line[ox].g = rgbvalacc.g; out_line[ox].b = rgbvalacc.b; + out_line[ox].a = rgbvalacc.a; /* reset accumulator */ rgbvalacc.r = 0; rgbvalacc.g = 0; rgbvalacc.b = 0; + rgbvalacc.a = 0; mul = oxe; ox += 1; /* inside an area */ @@ -259,6 +277,7 @@ static bool scale_h_area(void *out_line_ptr, rgbvalacc.r += part->buf->red; rgbvalacc.g += part->buf->green; rgbvalacc.b += part->buf->blue; + rgbvalacc.a += part->buf->alpha; } #else if (oxe >= h_i_val) @@ -337,17 +356,10 @@ static inline bool scale_v_area(struct rowset *rset, struct scaler_context *ctx) mul = 0; oy = rset->rowstart; oye = 0; -#ifdef HAVE_LCD_COLOR uint32_t *rowacc = (uint32_t *) ctx->buf, - *rowtmp = rowacc + 3 * ctx->bm->width, + *rowtmp = rowacc + ctx->bm->width * CHANNEL_BYTES, *rowacc_px, *rowtmp_px; - memset((void *)ctx->buf, 0, ctx->bm->width * 2 * sizeof(struct uint32_rgb)); -#else - uint32_t *rowacc = (uint32_t *) ctx->buf, - *rowtmp = rowacc + ctx->bm->width, - *rowacc_px, *rowtmp_px; - memset((void *)ctx->buf, 0, ctx->bm->width * 2 * sizeof(uint32_t)); -#endif + memset((void *)ctx->buf, 0, ctx->bm->width * 2 * sizeof(uint32_t)*CHANNEL_BYTES); SDEBUGF("scale_v_area\n"); /* zero the accumulator and temp rows */ for (iy = 0; iy < (unsigned int)ctx->src->height; iy++) @@ -376,11 +388,7 @@ static inline bool scale_v_area(struct rowset *rset, struct scaler_context *ctx) *rowacc_px += mul * *rowtmp_px; ctx->output_row(oy, (void*)rowacc, ctx); /* clear accumulator row, store partial coverage for next row */ -#ifdef HAVE_LCD_COLOR - memset((void *)rowacc, 0, ctx->bm->width * sizeof(uint32_t) * 3); -#else - memset((void *)rowacc, 0, ctx->bm->width * sizeof(uint32_t)); -#endif + memset((void *)rowacc, 0, ctx->bm->width * sizeof(uint32_t) * CHANNEL_BYTES); mul = oye; oy += rset->rowstep; /* inside an area */ @@ -411,8 +419,8 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, set such that this will occur before these are used. */ #ifdef HAVE_LCD_COLOR - struct uint32_rgb rgbval=rgbval, rgbinc=rgbinc, - *out_line = (struct uint32_rgb*)out_line_ptr; + struct uint32_argb rgbval=rgbval, rgbinc=rgbinc, + *out_line = (struct uint32_argb*)out_line_ptr; #else uint32_t val=val, inc=inc, *out_line = (uint32_t*)out_line_ptr; #endif @@ -436,16 +444,19 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, rgbinc.r = -(part->buf->red); rgbinc.g = -(part->buf->green); rgbinc.b = -(part->buf->blue); + rgbinc.a = -(part->buf->alpha); #if defined(CPU_COLDFIRE) /* Coldfire EMAC math */ MAC(part->buf->red, h_o_val, 0); MAC(part->buf->green, h_o_val, 1); MAC(part->buf->blue, h_o_val, 2); + MAC(part->buf->alpha, h_o_val, 3); #else /* generic C math */ rgbval.r = (part->buf->red) * h_o_val; rgbval.g = (part->buf->green) * h_o_val; rgbval.b = (part->buf->blue) * h_o_val; + rgbval.a = (part->buf->alpha) * h_o_val; #endif /* CPU */ ix += 1; /* If this wasn't the last pixel, add the next one to rgbinc. */ @@ -457,6 +468,7 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, rgbinc.r += part->buf->red; rgbinc.g += part->buf->green; rgbinc.b += part->buf->blue; + rgbinc.a += part->buf->alpha; /* Add a partial step to rgbval, in this pixel isn't precisely aligned with the new source pixel */ @@ -465,11 +477,13 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, MAC(rgbinc.r, ixe, 0); MAC(rgbinc.g, ixe, 1); MAC(rgbinc.b, ixe, 2); + MAC(rgbinc.a, ixe, 3); #else /* generic C math */ rgbval.r += rgbinc.r * ixe; rgbval.g += rgbinc.g * ixe; rgbval.b += rgbinc.b * ixe; + rgbval.a += rgbinc.a * ixe; #endif } #if defined(CPU_COLDFIRE) @@ -477,15 +491,18 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, MAC_OUT(rgbval.r, 0); MAC_OUT(rgbval.g, 1); MAC_OUT(rgbval.b, 2); + MAC_OUT(rgbval.a, 3); #endif /* Now multiply the color increment to its proper value */ rgbinc.r *= h_i_val; rgbinc.g *= h_i_val; rgbinc.b *= h_i_val; + rgbinc.a *= h_i_val; } else { rgbval.r += rgbinc.r; rgbval.g += rgbinc.g; rgbval.b += rgbinc.b; + rgbval.a += rgbinc.a; } /* round and scale values, and accumulate or store to output */ if (accum) @@ -493,10 +510,12 @@ static bool scale_h_linear(void *out_line_ptr, struct scaler_context *ctx, out_line[ox].r += (rgbval.r + (1 << 21)) >> 22; out_line[ox].g += (rgbval.g + (1 << 21)) >> 22; out_line[ox].b += (rgbval.b + (1 << 21)) >> 22; + out_line[ox].a += (rgbval.a + (1 << 21)) >> 22; } else { out_line[ox].r = (rgbval.r + (1 << 21)) >> 22; out_line[ox].g = (rgbval.g + (1 << 21)) >> 22; out_line[ox].b = (rgbval.b + (1 << 21)) >> 22; + out_line[ox].a = (rgbval.a + (1 << 21)) >> 22; } #else if (ixe >= h_o_val) @@ -592,15 +611,9 @@ static inline bool scale_v_linear(struct rowset *rset, /* Set up our buffers, to store the increment and current value for each column, and one temp buffer used to read in new rows. */ -#ifdef HAVE_LCD_COLOR - uint32_t *rowinc = (uint32_t *)(ctx->buf), - *rowval = rowinc + 3 * ctx->bm->width, - *rowtmp = rowval + 3 * ctx->bm->width, -#else uint32_t *rowinc = (uint32_t *)(ctx->buf), - *rowval = rowinc + ctx->bm->width, - *rowtmp = rowval + ctx->bm->width, -#endif + *rowval = rowinc + ctx->bm->width * CHANNEL_BYTES, + *rowtmp = rowval + ctx->bm->width * CHANNEL_BYTES, *rowinc_px, *rowval_px, *rowtmp_px; SDEBUGF("scale_v_linear\n"); @@ -658,7 +671,7 @@ static void output_row_32_native_fromyuv(uint32_t row, void * row_in, int col; uint8_t dy = DITHERY(row); - struct uint32_rgb *qp = (struct uint32_rgb *)row_in; + struct uint32_argb *qp = (struct uint32_argb *)row_in; SDEBUGF("output_row: y: %lu in: %p\n",row, row_in); fb_data *dest = (fb_data *)ctx->bm->data + Y_STEP * row; int delta = 127; @@ -689,7 +702,7 @@ static void output_row_32_native(uint32_t row, void * row_in, int fb_width = BM_WIDTH(ctx->bm->width,FORMAT_NATIVE,0); uint8_t dy = DITHERY(row); #ifdef HAVE_LCD_COLOR - struct uint32_rgb *qp = (struct uint32_rgb*)row_in; + struct uint32_argb *qp = (struct uint32_argb*)row_in; #else uint32_t *qp = (uint32_t*)row_in; #endif @@ -750,34 +763,19 @@ static void output_row_32_native(uint32_t row, void * row_in, } #endif /* LCD_PIXELFORMAT */ #elif LCD_DEPTH == 16 - -#if defined(LCD_STRIDEFORMAT) && LCD_STRIDEFORMAT == VERTICAL_STRIDE - /* M:Robe 500 */ - (void) fb_width; - fb_data *dest = (fb_data *)ctx->bm->data + row; - int delta = 127; - unsigned r, g, b; - struct uint32_rgb q0; - - for (col = 0; col < ctx->bm->width; col++) { - if (ctx->dither) - delta = DITHERXDY(col,dy); - q0 = *qp++; - r = SC_OUT(q0.r, ctx); - g = SC_OUT(q0.g, ctx); - b = SC_OUT(q0.b, ctx); - r = (31 * r + (r >> 3) + delta) >> 8; - g = (63 * g + (g >> 2) + delta) >> 8; - b = (31 * b + (b >> 3) + delta) >> 8; - *dest = LCD_RGBPACK_LCD(r, g, b); - dest += ctx->bm->height; - } -#else /* iriver h300, colour iPods, X5 */ - fb_data *dest = (fb_data *)ctx->bm->data + fb_width * row; + (void)fb_width; + fb_data *dest = STRIDE_MAIN((fb_data *)ctx->bm->data + fb_width * row, + (fb_data *)ctx->bm->data + row); int delta = 127; unsigned r, g, b; - struct uint32_rgb q0; + struct uint32_argb q0; + /* setup alpha channel buffer */ + unsigned char *bm_alpha = NULL; + if (ctx->bm->alpha_offset > 0) + bm_alpha = ctx->bm->data + ctx->bm->alpha_offset; + if (bm_alpha) + bm_alpha += ctx->bm->width*row/2; for (col = 0; col < ctx->bm->width; col++) { if (ctx->dither) @@ -789,10 +787,17 @@ static void output_row_32_native(uint32_t row, void * row_in, r = (31 * r + (r >> 3) + delta) >> 8; g = (63 * g + (g >> 2) + delta) >> 8; b = (31 * b + (b >> 3) + delta) >> 8; - *dest++ = LCD_RGBPACK_LCD(r, g, b); + *dest = LCD_RGBPACK_LCD(r, g, b); + dest += STRIDE_MAIN(1, ctx->bm->height); + if (bm_alpha) { + /* pack alpha channel for 2 pixels into 1 byte */ + unsigned alpha = 255-SC_OUT(q0.a, ctx); + if (col%2) + *bm_alpha++ |= alpha&0xf0; + else + *bm_alpha = alpha>>4; + } } -#endif - #endif /* LCD_DEPTH */ } #endif @@ -829,8 +834,9 @@ int resize_on_load(struct bitmap *bm, bool dither, struct dim *src, const int dw = bm->width; const int dh = bm->height; int ret; + /* buffer for 1 line + 2 spare lines */ #ifdef HAVE_LCD_COLOR - unsigned int needed = sizeof(struct uint32_rgb) * 3 * bm->width; + unsigned int needed = sizeof(struct uint32_argb) * 3 * bm->width; #else unsigned int needed = sizeof(uint32_t) * 3 * bm->width; #endif -- cgit v1.2.3