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author | marha <marha@users.sourceforge.net> | 2009-10-09 06:31:44 +0000 |
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committer | marha <marha@users.sourceforge.net> | 2009-10-09 06:31:44 +0000 |
commit | 06456f5db88b434c3634ede42bdbfdce78fc4249 (patch) | |
tree | 97f5174e2d3da40faee7f2ad8858233da3d0166e /mesalib/src/mesa/swrast/s_zoom.c | |
parent | 7b230a3fe2d6c83488d9eec43067fe8ba8ac081b (diff) | |
parent | a0c4815433ccd57322f4f7703ca35e9ccfa59250 (diff) | |
download | vcxsrv-06456f5db88b434c3634ede42bdbfdce78fc4249.tar.gz vcxsrv-06456f5db88b434c3634ede42bdbfdce78fc4249.tar.bz2 vcxsrv-06456f5db88b434c3634ede42bdbfdce78fc4249.zip |
svn merge ^/branches/released . --username marha
Diffstat (limited to 'mesalib/src/mesa/swrast/s_zoom.c')
-rw-r--r-- | mesalib/src/mesa/swrast/s_zoom.c | 477 |
1 files changed, 477 insertions, 0 deletions
diff --git a/mesalib/src/mesa/swrast/s_zoom.c b/mesalib/src/mesa/swrast/s_zoom.c new file mode 100644 index 000000000..a48eae192 --- /dev/null +++ b/mesalib/src/mesa/swrast/s_zoom.c @@ -0,0 +1,477 @@ +/* + * Mesa 3-D graphics library + * Version: 7.1 + * + * Copyright (C) 1999-2008 Brian Paul All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining a + * copy of this software and associated documentation files (the "Software"), + * to deal in the Software without restriction, including without limitation + * the rights to use, copy, modify, merge, publish, distribute, sublicense, + * and/or sell copies of the Software, and to permit persons to whom the + * Software is furnished to do so, subject to the following conditions: + * + * 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 + * BRIAN PAUL 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. + */ + +#include "main/glheader.h" +#include "main/macros.h" +#include "main/imports.h" +#include "main/colormac.h" + +#include "s_context.h" +#include "s_span.h" +#include "s_stencil.h" +#include "s_zoom.h" + + +/** + * Compute the bounds of the region resulting from zooming a pixel span. + * The resulting region will be entirely inside the window/scissor bounds + * so no additional clipping is needed. + * \param imageX, imageY position of the mage being drawn (gl WindowPos) + * \param spanX, spanY position of span being drawing + * \param width number of pixels in span + * \param x0, x1 returned X bounds of zoomed region [x0, x1) + * \param y0, y1 returned Y bounds of zoomed region [y0, y1) + * \return GL_TRUE if any zoomed pixels visible, GL_FALSE if totally clipped + */ +static GLboolean +compute_zoomed_bounds(GLcontext *ctx, GLint imageX, GLint imageY, + GLint spanX, GLint spanY, GLint width, + GLint *x0, GLint *x1, GLint *y0, GLint *y1) +{ + const struct gl_framebuffer *fb = ctx->DrawBuffer; + GLint c0, c1, r0, r1; + + ASSERT(spanX >= imageX); + ASSERT(spanY >= imageY); + + /* + * Compute destination columns: [c0, c1) + */ + c0 = imageX + (GLint) ((spanX - imageX) * ctx->Pixel.ZoomX); + c1 = imageX + (GLint) ((spanX + width - imageX) * ctx->Pixel.ZoomX); + if (c1 < c0) { + /* swap */ + GLint tmp = c1; + c1 = c0; + c0 = tmp; + } + c0 = CLAMP(c0, fb->_Xmin, fb->_Xmax); + c1 = CLAMP(c1, fb->_Xmin, fb->_Xmax); + if (c0 == c1) { + return GL_FALSE; /* no width */ + } + + /* + * Compute destination rows: [r0, r1) + */ + r0 = imageY + (GLint) ((spanY - imageY) * ctx->Pixel.ZoomY); + r1 = imageY + (GLint) ((spanY + 1 - imageY) * ctx->Pixel.ZoomY); + if (r1 < r0) { + /* swap */ + GLint tmp = r1; + r1 = r0; + r0 = tmp; + } + r0 = CLAMP(r0, fb->_Ymin, fb->_Ymax); + r1 = CLAMP(r1, fb->_Ymin, fb->_Ymax); + if (r0 == r1) { + return GL_FALSE; /* no height */ + } + + *x0 = c0; + *x1 = c1; + *y0 = r0; + *y1 = r1; + + return GL_TRUE; +} + + +/** + * Convert a zoomed x image coordinate back to an unzoomed x coord. + * 'zx' is screen position of a pixel in the zoomed image, who's left edge + * is at 'imageX'. + * return corresponding x coord in the original, unzoomed image. + * This can use this for unzooming X or Y values. + */ +static INLINE GLint +unzoom_x(GLfloat zoomX, GLint imageX, GLint zx) +{ + /* + zx = imageX + (x - imageX) * zoomX; + zx - imageX = (x - imageX) * zoomX; + (zx - imageX) / zoomX = x - imageX; + */ + GLint x; + if (zoomX < 0.0) + zx++; + x = imageX + (GLint) ((zx - imageX) / zoomX); + return x; +} + + + +/** + * Helper function called from _swrast_write_zoomed_rgba/rgb/ + * index/depth_span(). + */ +static void +zoom_span( GLcontext *ctx, GLint imgX, GLint imgY, const SWspan *span, + const GLvoid *src, GLenum format ) +{ + SWcontext *swrast = SWRAST_CONTEXT(ctx); + SWspan zoomed; + GLint x0, x1, y0, y1; + GLint zoomedWidth; + + if (!compute_zoomed_bounds(ctx, imgX, imgY, span->x, span->y, span->end, + &x0, &x1, &y0, &y1)) { + return; /* totally clipped */ + } + + if (!swrast->ZoomedArrays) { + /* allocate on demand */ + swrast->ZoomedArrays = (SWspanarrays *) CALLOC(sizeof(SWspanarrays)); + if (!swrast->ZoomedArrays) + return; + } + + zoomedWidth = x1 - x0; + ASSERT(zoomedWidth > 0); + ASSERT(zoomedWidth <= MAX_WIDTH); + + /* no pixel arrays! must be horizontal spans. */ + ASSERT((span->arrayMask & SPAN_XY) == 0); + ASSERT(span->primitive == GL_BITMAP); + + INIT_SPAN(zoomed, GL_BITMAP); + zoomed.x = x0; + zoomed.end = zoomedWidth; + zoomed.array = swrast->ZoomedArrays; + zoomed.array->ChanType = span->array->ChanType; + if (zoomed.array->ChanType == GL_UNSIGNED_BYTE) + zoomed.array->rgba = (GLchan (*)[4]) zoomed.array->rgba8; + else if (zoomed.array->ChanType == GL_UNSIGNED_SHORT) + zoomed.array->rgba = (GLchan (*)[4]) zoomed.array->rgba16; + else + zoomed.array->rgba = (GLchan (*)[4]) zoomed.array->attribs[FRAG_ATTRIB_COL0]; + + COPY_4V(zoomed.attrStart[FRAG_ATTRIB_WPOS], span->attrStart[FRAG_ATTRIB_WPOS]); + COPY_4V(zoomed.attrStepX[FRAG_ATTRIB_WPOS], span->attrStepX[FRAG_ATTRIB_WPOS]); + COPY_4V(zoomed.attrStepY[FRAG_ATTRIB_WPOS], span->attrStepY[FRAG_ATTRIB_WPOS]); + + zoomed.attrStart[FRAG_ATTRIB_FOGC][0] = span->attrStart[FRAG_ATTRIB_FOGC][0]; + zoomed.attrStepX[FRAG_ATTRIB_FOGC][0] = span->attrStepX[FRAG_ATTRIB_FOGC][0]; + zoomed.attrStepY[FRAG_ATTRIB_FOGC][0] = span->attrStepY[FRAG_ATTRIB_FOGC][0]; + + if (format == GL_RGBA || format == GL_RGB) { + /* copy Z info */ + zoomed.z = span->z; + zoomed.zStep = span->zStep; + /* we'll generate an array of colorss */ + zoomed.interpMask = span->interpMask & ~SPAN_RGBA; + zoomed.arrayMask |= SPAN_RGBA; + zoomed.arrayAttribs |= FRAG_BIT_COL0; /* we'll produce these values */ + ASSERT(span->arrayMask & SPAN_RGBA); + } + else if (format == GL_COLOR_INDEX) { + /* copy Z info */ + zoomed.z = span->z; + zoomed.zStep = span->zStep; + /* we'll generate an array of color indexes */ + zoomed.interpMask = span->interpMask & ~SPAN_INDEX; + zoomed.arrayMask |= SPAN_INDEX; + ASSERT(span->arrayMask & SPAN_INDEX); + } + else if (format == GL_DEPTH_COMPONENT) { + /* Copy color info */ + zoomed.red = span->red; + zoomed.green = span->green; + zoomed.blue = span->blue; + zoomed.alpha = span->alpha; + zoomed.redStep = span->redStep; + zoomed.greenStep = span->greenStep; + zoomed.blueStep = span->blueStep; + zoomed.alphaStep = span->alphaStep; + /* we'll generate an array of depth values */ + zoomed.interpMask = span->interpMask & ~SPAN_Z; + zoomed.arrayMask |= SPAN_Z; + ASSERT(span->arrayMask & SPAN_Z); + } + else { + _mesa_problem(ctx, "Bad format in zoom_span"); + return; + } + + /* zoom the span horizontally */ + if (format == GL_RGBA) { + if (zoomed.array->ChanType == GL_UNSIGNED_BYTE) { + const GLubyte (*rgba)[4] = (const GLubyte (*)[4]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + COPY_4UBV(zoomed.array->rgba8[i], rgba[j]); + } + } + else if (zoomed.array->ChanType == GL_UNSIGNED_SHORT) { + const GLushort (*rgba)[4] = (const GLushort (*)[4]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + COPY_4V(zoomed.array->rgba16[i], rgba[j]); + } + } + else { + const GLfloat (*rgba)[4] = (const GLfloat (*)[4]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < span->end); + COPY_4V(zoomed.array->attribs[FRAG_ATTRIB_COL0][i], rgba[j]); + } + } + } + else if (format == GL_RGB) { + if (zoomed.array->ChanType == GL_UNSIGNED_BYTE) { + const GLubyte (*rgb)[3] = (const GLubyte (*)[3]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + zoomed.array->rgba8[i][0] = rgb[j][0]; + zoomed.array->rgba8[i][1] = rgb[j][1]; + zoomed.array->rgba8[i][2] = rgb[j][2]; + zoomed.array->rgba8[i][3] = 0xff; + } + } + else if (zoomed.array->ChanType == GL_UNSIGNED_SHORT) { + const GLushort (*rgb)[3] = (const GLushort (*)[3]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + zoomed.array->rgba16[i][0] = rgb[j][0]; + zoomed.array->rgba16[i][1] = rgb[j][1]; + zoomed.array->rgba16[i][2] = rgb[j][2]; + zoomed.array->rgba16[i][3] = 0xffff; + } + } + else { + const GLfloat (*rgb)[3] = (const GLfloat (*)[3]) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < span->end); + zoomed.array->attribs[FRAG_ATTRIB_COL0][i][0] = rgb[j][0]; + zoomed.array->attribs[FRAG_ATTRIB_COL0][i][1] = rgb[j][1]; + zoomed.array->attribs[FRAG_ATTRIB_COL0][i][2] = rgb[j][2]; + zoomed.array->attribs[FRAG_ATTRIB_COL0][i][3] = 1.0F; + } + } + } + else if (format == GL_COLOR_INDEX) { + const GLuint *indexes = (const GLuint *) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + zoomed.array->index[i] = indexes[j]; + } + } + else if (format == GL_DEPTH_COMPONENT) { + const GLuint *zValues = (const GLuint *) src; + GLint i; + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - span->x; + ASSERT(j >= 0); + ASSERT(j < (GLint) span->end); + zoomed.array->z[i] = zValues[j]; + } + /* Now, fall into either the RGB or COLOR_INDEX path below */ + format = ctx->Visual.rgbMode ? GL_RGBA : GL_COLOR_INDEX; + } + + /* write the span in rows [r0, r1) */ + if (format == GL_RGBA || format == GL_RGB) { + /* Writing the span may modify the colors, so make a backup now if we're + * going to call _swrast_write_zoomed_span() more than once. + * Also, clipping may change the span end value, so store it as well. + */ + const GLint end = zoomed.end; /* save */ + GLuint rgbaSave[MAX_WIDTH][4]; + const GLint pixelSize = + (zoomed.array->ChanType == GL_UNSIGNED_BYTE) ? 4 * sizeof(GLubyte) : + ((zoomed.array->ChanType == GL_UNSIGNED_SHORT) ? 4 * sizeof(GLushort) + : 4 * sizeof(GLfloat)); + if (y1 - y0 > 1) { + MEMCPY(rgbaSave, zoomed.array->rgba, zoomed.end * pixelSize); + } + for (zoomed.y = y0; zoomed.y < y1; zoomed.y++) { + _swrast_write_rgba_span(ctx, &zoomed); + zoomed.end = end; /* restore */ + if (y1 - y0 > 1) { + /* restore the colors */ + MEMCPY(zoomed.array->rgba, rgbaSave, zoomed.end * pixelSize); + } + } + } + else if (format == GL_COLOR_INDEX) { + /* use specular color array for temp storage */ + GLuint *indexSave = (GLuint *) zoomed.array->attribs[FRAG_ATTRIB_FOGC]; + const GLint end = zoomed.end; /* save */ + if (y1 - y0 > 1) { + MEMCPY(indexSave, zoomed.array->index, zoomed.end * sizeof(GLuint)); + } + for (zoomed.y = y0; zoomed.y < y1; zoomed.y++) { + _swrast_write_index_span(ctx, &zoomed); + zoomed.end = end; /* restore */ + if (y1 - y0 > 1) { + /* restore the colors */ + MEMCPY(zoomed.array->index, indexSave, zoomed.end * sizeof(GLuint)); + } + } + } +} + + +void +_swrast_write_zoomed_rgba_span(GLcontext *ctx, GLint imgX, GLint imgY, + const SWspan *span, const GLvoid *rgba) +{ + zoom_span(ctx, imgX, imgY, span, rgba, GL_RGBA); +} + + +void +_swrast_write_zoomed_rgb_span(GLcontext *ctx, GLint imgX, GLint imgY, + const SWspan *span, const GLvoid *rgb) +{ + zoom_span(ctx, imgX, imgY, span, rgb, GL_RGB); +} + + +void +_swrast_write_zoomed_index_span(GLcontext *ctx, GLint imgX, GLint imgY, + const SWspan *span) +{ + zoom_span(ctx, imgX, imgY, span, + (const GLvoid *) span->array->index, GL_COLOR_INDEX); +} + + +void +_swrast_write_zoomed_depth_span(GLcontext *ctx, GLint imgX, GLint imgY, + const SWspan *span) +{ + zoom_span(ctx, imgX, imgY, span, + (const GLvoid *) span->array->z, GL_DEPTH_COMPONENT); +} + + +/** + * Zoom/write stencil values. + * No per-fragment operations are applied. + */ +void +_swrast_write_zoomed_stencil_span(GLcontext *ctx, GLint imgX, GLint imgY, + GLint width, GLint spanX, GLint spanY, + const GLstencil stencil[]) +{ + GLstencil zoomedVals[MAX_WIDTH]; + GLint x0, x1, y0, y1, y; + GLint i, zoomedWidth; + + if (!compute_zoomed_bounds(ctx, imgX, imgY, spanX, spanY, width, + &x0, &x1, &y0, &y1)) { + return; /* totally clipped */ + } + + zoomedWidth = x1 - x0; + ASSERT(zoomedWidth > 0); + ASSERT(zoomedWidth <= MAX_WIDTH); + + /* zoom the span horizontally */ + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - spanX; + ASSERT(j >= 0); + ASSERT(j < width); + zoomedVals[i] = stencil[j]; + } + + /* write the zoomed spans */ + for (y = y0; y < y1; y++) { + _swrast_write_stencil_span(ctx, zoomedWidth, x0, y, zoomedVals); + } +} + + +/** + * Zoom/write z values (16 or 32-bit). + * No per-fragment operations are applied. + */ +void +_swrast_write_zoomed_z_span(GLcontext *ctx, GLint imgX, GLint imgY, + GLint width, GLint spanX, GLint spanY, + const GLvoid *z) +{ + struct gl_renderbuffer *rb = ctx->DrawBuffer->_DepthBuffer; + GLushort zoomedVals16[MAX_WIDTH]; + GLuint zoomedVals32[MAX_WIDTH]; + GLint x0, x1, y0, y1, y; + GLint i, zoomedWidth; + + if (!compute_zoomed_bounds(ctx, imgX, imgY, spanX, spanY, width, + &x0, &x1, &y0, &y1)) { + return; /* totally clipped */ + } + + zoomedWidth = x1 - x0; + ASSERT(zoomedWidth > 0); + ASSERT(zoomedWidth <= MAX_WIDTH); + + /* zoom the span horizontally */ + if (rb->DataType == GL_UNSIGNED_SHORT) { + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - spanX; + ASSERT(j >= 0); + ASSERT(j < width); + zoomedVals16[i] = ((GLushort *) z)[j]; + } + z = zoomedVals16; + } + else { + ASSERT(rb->DataType == GL_UNSIGNED_INT); + for (i = 0; i < zoomedWidth; i++) { + GLint j = unzoom_x(ctx->Pixel.ZoomX, imgX, x0 + i) - spanX; + ASSERT(j >= 0); + ASSERT(j < width); + zoomedVals32[i] = ((GLuint *) z)[j]; + } + z = zoomedVals32; + } + + /* write the zoomed spans */ + for (y = y0; y < y1; y++) { + rb->PutRow(ctx, rb, zoomedWidth, x0, y, z, NULL); + } +} |