path: root/engines/sci/gfx/gfx_pixmap_scale.cpp

/* Required defines:
** FUNCNAME: Function name
** SIZETYPE: Type used for each pixel
** EXTRA_BYTE_OFFSET: Extra source byte offset for copying (used on big-endian machines in 24 bit mode)
*/

/* set optimisations for Win32: */
/* g on: enable global optimizations */
/* t on: use fast code */
/* y on: suppress creation of frame pointers on stack */
/* s off: disable minimize size code */
#ifdef WIN32
#	include <memory.h>
#	ifndef SATISFY_PURIFY
#		pragma optimize( "s", off )
#		pragma optimize( "gty", on )
#		pragma intrinsic( memcpy, memset )
#	endif
#endif

#include "sci/include/sci_memory.h"

#define EXTEND_COLOR(x) (unsigned) ((((unsigned) x) << 24) | (((unsigned) x) << 16) | (((unsigned) x) << 8) | ((unsigned) x))
#define PALETTE_MODE mode->palette

void
FUNCNAME(gfx_mode_t *mode, gfx_pixmap_t *pxm, int scale) {
	SIZETYPE result_colors[GFX_PIC_COLORS];
	SIZETYPE alpha_color = 0xffffffff & mode->alpha_mask;
	SIZETYPE alpha_ormask = 0;
	int xfact = (scale) ? mode->xfact : 1;
	int yfact = (scale) ? mode->yfact : 1;
	int widthc, heightc; /* Width duplication counter */
	int line_width = xfact * pxm->index_xl;
	int bytespp = mode->bytespp;
	int x, y;
	int i;
	byte byte_transparent = (mode->flags & GFX_MODE_FLAG_REVERSE_ALPHA) ?  0 : 255;
	byte byte_opaque = (mode->flags & GFX_MODE_FLAG_REVERSE_ALPHA) ?  255 : 0;
	byte *src = pxm->index_data;
	byte *dest = pxm->data;
	byte *alpha_dest = pxm->alpha_map;
	int using_alpha = pxm->color_key != GFX_PIXMAP_COLOR_KEY_NONE;
	int separate_alpha_map = (!mode->alpha_mask) && using_alpha;

	if (mode->flags & GFX_MODE_FLAG_REVERSE_ALPHA) {
		alpha_ormask = alpha_color;
		alpha_color = 0;
	}

	assert(bytespp == COPY_BYTES);

	if (separate_alpha_map && !alpha_dest)
		alpha_dest = pxm->alpha_map = (byte*)sci_malloc(pxm->index_xl * xfact * pxm->index_yl * yfact);

	/* Calculate all colors */
	for (i = 0; i < pxm->colors_nr; i++) {
		int col;

		if (PALETTE_MODE)
			col = pxm->colors[i].global_index;
		else {
			col = mode->red_mask & ((EXTEND_COLOR(pxm->colors[i].r)) >> mode->red_shift);
			col |= mode->green_mask & ((EXTEND_COLOR(pxm->colors[i].g)) >> mode->green_shift);
			col |= mode->blue_mask & ((EXTEND_COLOR(pxm->colors[i].b)) >> mode->blue_shift);
			col |= alpha_ormask;
		}
		result_colors[i] = col;
	}

	if (!separate_alpha_map && pxm->color_key != GFX_PIXMAP_COLOR_KEY_NONE)
		result_colors[pxm->color_key] = alpha_color;

	src = pxm->index_data; /* Workaround for gcc 4.2.3 bug on EMT64 */
	for (y = 0; y < pxm->index_yl; y++) {
		byte *prev_dest = dest;
		byte *prev_alpha_dest = alpha_dest;

		for (x = 0; x < pxm->index_xl; x++) {
			int isalpha;
			SIZETYPE col = result_colors[isalpha = *src++] << (EXTRA_BYTE_OFFSET * 8);
			isalpha = (isalpha == pxm->color_key) && using_alpha;

			/* O(n) loops. There is an O(ln(n)) algorithm for this, but its slower for small n (which we're optimizing for here).
			** And, anyway, most of the time is spent in memcpy() anyway. */

			for (widthc = 0; widthc < xfact; widthc++) {
				memcpy(dest, &col, COPY_BYTES);
				dest += COPY_BYTES;
			}

			if (separate_alpha_map) { /* Set separate alpha map */
				memset(alpha_dest, (isalpha) ? byte_transparent : byte_opaque, xfact);
				alpha_dest += xfact;
			}
		}

		/* Copies each line. O(n) iterations; again, this could be optimized to O(ln(n)) for very high resolutions,
		** but that wouldn't really help that much, as the same amount of data still would have to be transferred.
		*/
		for (heightc = 1; heightc < yfact; heightc++) {
			memcpy(dest, prev_dest, line_width * bytespp);
			dest += line_width * bytespp;
			if (separate_alpha_map) {
				memcpy(alpha_dest, prev_alpha_dest, line_width);
				alpha_dest += line_width;
			}
		}
	}
}




/* linear filter: Macros (in reverse order) */

#define X_CALC_INTENSITY_NORMAL (ctexel[i] << 16) + ((linecolor[i])*(256-column_valuator)) + ((othercolumn[i]*column_valuator))*(256-line_valuator)
#define X_CALC_INTENSITY_CENTER (ctexel[i] << 16) + ((linecolor[i])*(256-column_valuator))

#define WRITE_XPART(X_CALC_INTENSITY, DO_X_STEP) \
				for (subx = 0; subx < ((DO_X_STEP)? (xfact >> 1) : 1); subx++) { \
                                        unsigned int intensity; \
					wrcolor = 0; \
					for (i = 0; i < 3; i++) { \
						intensity = X_CALC_INTENSITY; \
						wrcolor |= (intensity >> shifts[i]) & masks[i]; \
					} \
					i = 3; \
					intensity = X_CALC_INTENSITY; \
					if (inverse_alpha) \
                                                intensity = ~intensity; \
                                        wrcolor |= (intensity >> shifts[i]) & masks[i]; \
                                        if (separate_alpha_map) \
                                                *alpha_wrpos++ = intensity >> 24; \
					wrcolor <<= (EXTRA_BYTE_OFFSET * 8); \
					memcpy(wrpos, &wrcolor, COPY_BYTES); \
					wrpos += COPY_BYTES; \
					if (DO_X_STEP) \
                                                column_valuator -= column_step; \
				} \
                                if (DO_X_STEP) \
				        column_step = -column_step
/* End of macro definition */


#define Y_CALC_INTENSITY_CENTER 0
#define Y_CALC_INTENSITY_NORMAL otherline[i]*line_valuator

#define WRITE_YPART(DO_Y_STEP, LINE_COLOR) \
			for (suby = 0; suby < ((DO_Y_STEP)? yfact >> 1 : 1); suby++) { \
				int column_valuator = column_step? 128 - (column_step >> 1) : 256; \
				int linecolor[4]; \
				int othercolumn[4]; \
				int i; \
				SIZETYPE wrcolor; \
				wrpos = sublinepos; \
                                alpha_wrpos = alpha_sublinepos; \
				for (i = 0; i < 4; i++) \
					linecolor[i] = LINE_COLOR; \
				/*-- left half --*/ \
				MAKE_PIXEL((x == 0), othercolumn, ctexel, src[-1]); \
				WRITE_XPART(X_CALC_INTENSITY_NORMAL, 1); \
				column_valuator -= column_step; \
				/*-- center --*/ \
				if (xfact & 1) { \
					WRITE_XPART(X_CALC_INTENSITY_CENTER, 0); \
				} \
				/*-- right half --*/ \
				MAKE_PIXEL((x+1 == pxm->index_xl), othercolumn, ctexel, src[+1]); \
				WRITE_XPART(X_CALC_INTENSITY_NORMAL, 1); \
				if (DO_Y_STEP) \
                                        line_valuator -= line_step; \
				sublinepos += pxm->xl * bytespp; \
				alpha_sublinepos += pxm->xl; \
			} \
			if (DO_Y_STEP) \
			        line_step = -line_step
/* End of macro definition */




void
FUNCNAME_LINEAR(gfx_mode_t *mode, gfx_pixmap_t *pxm, int scale) {
	int xfact = mode->xfact;
	int yfact = mode->yfact;
	int line_step = (yfact < 2) ? 0 : 256 / (yfact & ~1);
	int column_step = (xfact < 2) ? 0 : 256 / (xfact & ~1);
	int bytespp = mode->bytespp;
	byte *src = pxm->index_data;
	byte *dest = pxm->data;
	byte *alpha_dest = pxm->alpha_map;
	int using_alpha = pxm->color_key != GFX_PIXMAP_COLOR_KEY_NONE;
	int separate_alpha_map = (!mode->alpha_mask) && using_alpha;
	unsigned int masks[4], shifts[4], zero[3];
	int x, y;
	byte inverse_alpha = mode->flags & GFX_MODE_FLAG_REVERSE_ALPHA;

	zero[0] = 255;
	zero[1] = zero[2] = 0;

	if (separate_alpha_map) {
		masks[3] = 0;
		shifts[3] = 24;
	}

	assert(bytespp == COPY_BYTES);
	assert(!PALETTE_MODE);

	masks[0] = mode->red_mask;
	masks[1] = mode->green_mask;
	masks[2] = mode->blue_mask;
	masks[3] = mode->alpha_mask;
	shifts[0] = mode->red_shift;
	shifts[1] = mode->green_shift;
	shifts[2] = mode->blue_shift;
	shifts[3] = mode->alpha_shift;

	if (separate_alpha_map && !alpha_dest)
		alpha_dest = pxm->alpha_map = (byte*)sci_malloc(pxm->index_xl * xfact * pxm->index_yl * yfact);

	for (y = 0; y < pxm->index_yl; y++) {
		byte *linepos = dest;
		byte *alpha_linepos = alpha_dest;

		for (x = 0; x < pxm->index_xl; x++) {
			int otherline[4]; /* the above line or the line below */
			int ctexel[4]; /* Current texel */
			int subx, suby;
			int line_valuator = line_step ? 128 - (line_step >> 1) : 256;
			byte *wrpos, *alpha_wrpos;
			byte *sublinepos = linepos;
			byte *alpha_sublinepos = alpha_linepos;

			ctexel[0] = ctexel[1] = ctexel[2] = ctexel[3] = 0;

#define MAKE_PIXEL(cond, rec, other, nr) \
			if ((cond) || (using_alpha && nr == pxm->color_key)) { \
				rec[0] = other[0] - ctexel[0]; \
				rec[1] = other[1] - ctexel[1]; \
				rec[2] = other[2] - ctexel[2]; \
				rec[3] = 0xffff - ctexel[3]; \
			} else { \
				rec[0] = (EXTEND_COLOR(pxm->colors[nr].r) >> 16) - ctexel[0]; \
				rec[1] = (EXTEND_COLOR(pxm->colors[nr].g) >> 16) - ctexel[1]; \
				rec[2] = (EXTEND_COLOR(pxm->colors[nr].b) >> 16) - ctexel[2]; \
				rec[3] = 0 - ctexel[3]; \
			}

			MAKE_PIXEL(0, ctexel, zero, *src);

			/*-- Upper half --*/
			MAKE_PIXEL((y == 0), otherline, ctexel, src[-pxm->index_xl]);
			WRITE_YPART(1, Y_CALC_INTENSITY_NORMAL);

			if (yfact & 1) {
				WRITE_YPART(0, Y_CALC_INTENSITY_CENTER);
			}

			/*-- Lower half --*/
			line_valuator -= line_step;
			MAKE_PIXEL((y + 1 == pxm->index_yl), otherline, ctexel, src[pxm->index_xl]);
			WRITE_YPART(1, Y_CALC_INTENSITY_NORMAL);

			src++;
			linepos += xfact * bytespp;
			alpha_linepos += xfact;
		}

		dest += pxm->xl * yfact * bytespp;
		alpha_dest += pxm->xl * yfact;
	}
}



/*----------------------*/
/*** Trilinear filter ***/
/*----------------------*/


#ifndef GFX_GET_PIXEL_DELTA
#define GFX_GET_PIXEL_DELTA
static inline void
gfx_get_pixel_delta(unsigned int *color, int *delta, unsigned int *pixel0, unsigned int *pixel1) {
	int j;
	int transp0 = pixel0[3] == 0xffffff;
	int transp1 = pixel1[3] == 0xffffff;

	if (transp0 && !transp1) { /* Transparent -> Opaque */
		memset(delta, 0, sizeof(int) * 3);
		delta[3] = ((pixel1[3] >> 8) - (pixel0[3] >> 8));
		memcpy(color, pixel1, sizeof(int) * 3);
		color[3] = 0xffffff;
	} else if (!transp0 && transp1) { /* Opaque -> Transparent */
		memset(delta, 0, sizeof(int) * 3);
		delta[3] = ((pixel1[3] >> 8) - (pixel0[3] >> 8));
		memcpy(color, pixel0, sizeof(int) * 4);
	} else if (transp0 && transp1) { /* Transparent */
		delta[3] = 0;
		color[3] = 0xffffff;
	} else { /* Opaque */
		memcpy(color, pixel0, sizeof(int) * 4);
		for (j = 0; j < 4; j++)
			delta[j] = ((pixel1[j] >> 8) - (pixel0[j] >> 8));
	}
}


static inline void
gfx_apply_delta(unsigned int *color, int *delta, int factor) {
	int i;
	for (i = 0; i < 4; i++)
		color[i] += delta[i] * factor;
}
#endif

#define MAKE_PIXEL_TRILINEAR(cond, rec, nr) \
			if (!(cond) || (using_alpha && nr == pxm->color_key)) { \
				rec[0] = 0; \
				rec[1] = 0; \
				rec[2] = 0; \
				rec[3] = 0xffffff; \
			} else { \
				rec[0] = (EXTEND_COLOR(pxm->colors[nr].r) >> 8); \
				rec[1] = (EXTEND_COLOR(pxm->colors[nr].g) >> 8); \
				rec[2] = (EXTEND_COLOR(pxm->colors[nr].b) >> 8); \
				rec[3] = 0; \
			}

#define REVERSE_ALPHA(foo) ((inverse_alpha)? ~(foo) : (foo))

void
FUNCNAME_TRILINEAR(gfx_mode_t *mode, gfx_pixmap_t *pxm, int scale) {
	int xfact = mode->xfact;
	int yfact = mode->yfact;
	int line_step = (yfact < 2) ? 0 : 256 / yfact;
	int column_step = (xfact < 2) ? 0 : 256 / xfact;
	int bytespp = mode->bytespp;
	byte *src = pxm->index_data;
	byte *dest = pxm->data;
	byte *alpha_dest = pxm->alpha_map;
	int using_alpha = pxm->color_key != GFX_PIXMAP_COLOR_KEY_NONE;
	int separate_alpha_map = (!mode->alpha_mask) && using_alpha;
	unsigned int masks[4], shifts[4];
	unsigned int pixels[4][4];
	/* 0 1
	** 2 3 */
	int x, y;
	byte inverse_alpha = mode->flags & GFX_MODE_FLAG_REVERSE_ALPHA;

	if (separate_alpha_map) {
		masks[3] = 0;
		shifts[3] = 24;
	}

	assert(bytespp == COPY_BYTES);
	assert(!PALETTE_MODE);

	masks[0] = mode->red_mask;
	masks[1] = mode->green_mask;
	masks[2] = mode->blue_mask;
	masks[3] = mode->alpha_mask;
	shifts[0] = mode->red_shift;
	shifts[1] = mode->green_shift;
	shifts[2] = mode->blue_shift;
	shifts[3] = mode->alpha_shift;

	if (!(pxm->index_xl && pxm->index_yl))
		return; /* Duh. */

	if (separate_alpha_map && !alpha_dest)
		alpha_dest = pxm->alpha_map = (byte*)sci_malloc(pxm->index_xl * xfact * pxm->index_yl * yfact);

	src -= pxm->index_xl + 1;

	for (y = 0; y <= pxm->index_yl; y++) {
		byte *y_dest_backup = dest;
		byte *y_alpha_dest_backup = alpha_dest;
		int y_valuator = (y > 0) ? 0 : 128;
		int yc_count;


		if (y == 0)
			yc_count = yfact >> 1;
		else if (y == pxm->index_yl)
			yc_count = (yfact + 1) >> 1;
		else
			yc_count = yfact;

		if (yfact & 1)
			y_valuator += line_step >> 1;

		for (x = 0; x <= pxm->index_xl; x++) {
			byte *x_dest_backup = dest;
			byte *x_alpha_dest_backup = alpha_dest;
			int x_valuator = (x > 0) ? 0 : 128;
			int xc_count;
			unsigned int leftcolor[4], rightcolor[4];
			int leftdelta[4], rightdelta[4];
			int xc, yc;

			if (x == 0)
				xc_count = xfact >> 1;
			else if (x == pxm->index_xl)
				xc_count = (xfact + 1) >> 1;
			else
				xc_count = xfact;

			if (xfact & 1)
				x_valuator += column_step >> 1;

			MAKE_PIXEL_TRILINEAR((y && x), pixels[0], *src);
			MAKE_PIXEL_TRILINEAR((y && (x < pxm->index_xl)), pixels[1], src[1]);
			MAKE_PIXEL_TRILINEAR(((y < pxm->index_yl) && x), pixels[2], src[pxm->index_xl]);
			MAKE_PIXEL_TRILINEAR(((y < pxm->index_yl) && (x < pxm->index_xl)),
			                     pixels[3], src[pxm->index_xl + 1]);

			/* OptimizeMe */

			gfx_get_pixel_delta(leftcolor, leftdelta, pixels[0], pixels[2]);
			gfx_get_pixel_delta(rightcolor, rightdelta, pixels[1], pixels[3]);
			gfx_apply_delta(leftcolor, leftdelta, y_valuator);
			gfx_apply_delta(rightcolor, rightdelta, y_valuator);

			for (yc = 0; yc < yc_count; yc++) {
				unsigned int color[4];
				int delta[4];
				byte *yc_dest_backup = dest;
				byte *yc_alpha_dest_backup = alpha_dest;

				gfx_get_pixel_delta(color, delta, leftcolor, rightcolor);

				gfx_apply_delta(color, delta, x_valuator);

				for (xc = 0; xc < xc_count; xc++) {
					SIZETYPE wrcolor;
					int i;
					wrcolor = 0;

					for (i = 0; i < 3; i++)
						wrcolor |= ((color[i] << 8) >> shifts[i]) & masks[i];

					if (separate_alpha_map) {
						*alpha_dest++ = REVERSE_ALPHA(color[3] >> 16);
					} else
						wrcolor |= REVERSE_ALPHA((color[3] << 8) >> shifts[3]) & masks[3];

					wrcolor <<= (EXTRA_BYTE_OFFSET * 8);

					memcpy(dest, &wrcolor, COPY_BYTES);
					dest += COPY_BYTES;
					gfx_apply_delta(color, delta, column_step);
				}
				gfx_apply_delta(leftcolor, leftdelta, line_step);
				gfx_apply_delta(rightcolor, rightdelta, line_step);

				dest = yc_dest_backup + pxm->index_xl * xfact * COPY_BYTES;
				alpha_dest = yc_alpha_dest_backup + pxm->index_xl * xfact;
			}

			dest = x_dest_backup + xc_count * COPY_BYTES;
			alpha_dest = x_alpha_dest_backup + xc_count;

			if (x < pxm->index_xl)
				src++;
		}
		dest = y_dest_backup + pxm->index_xl * xfact * yc_count * COPY_BYTES;
		alpha_dest = y_alpha_dest_backup + pxm->index_xl * xfact * yc_count;
	}
}

#undef REVERSE_ALPHA
#undef WRITE_YPART
#undef Y_CALC_INTENSITY_CENTER
#undef Y_CALC_INTENSITY_NORMAL
#undef WRITE_XPART
#undef X_CALC_INTENSITY_CENTER
#undef X_CALC_INTENSITY_NORMAL
#undef MAKE_PIXEL_TRILINEAR
#undef MAKE_PIXEL
#undef FUNCNAME
#undef FUNCNAME_LINEAR
#undef FUNCNAME_TRILINEAR
#undef SIZETYPE
#undef EXTEND_COLOR

/* reset to original optimisations for Win32: */
/* (does not reset intrinsics) */
#ifdef WIN32
#  pragma optimize( "", on )
#endif