/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkCanvas.h" #include "SkData.h" #include "SkImage.h" #include "SkMaskFilter.h" #include "SkMatrix.h" #include "SkPaint.h" #include "SkPath.h" #include "SkPictureRecorder.h" #include "SkSurface.h" #include "sk_canvas.h" #include "sk_data.h" #include "sk_image.h" #include "sk_paint.h" #include "sk_path.h" #include "sk_surface.h" #include "sk_types_priv.h" const struct { sk_colortype_t fC; SkColorType fSK; } gColorTypeMap[] = { { UNKNOWN_SK_COLORTYPE, kUnknown_SkColorType }, { RGBA_8888_SK_COLORTYPE, kRGBA_8888_SkColorType }, { BGRA_8888_SK_COLORTYPE, kBGRA_8888_SkColorType }, { ALPHA_8_SK_COLORTYPE, kAlpha_8_SkColorType }, }; const struct { sk_alphatype_t fC; SkAlphaType fSK; } gAlphaTypeMap[] = { { OPAQUE_SK_ALPHATYPE, kOpaque_SkAlphaType }, { PREMUL_SK_ALPHATYPE, kPremul_SkAlphaType }, { UNPREMUL_SK_ALPHATYPE, kUnpremul_SkAlphaType }, }; static bool from_c_colortype(sk_colortype_t cCT, SkColorType* skCT) { for (size_t i = 0; i < SK_ARRAY_COUNT(gColorTypeMap); ++i) { if (gColorTypeMap[i].fC == cCT) { if (skCT) { *skCT = gColorTypeMap[i].fSK; } return true; } } return false; } static bool to_c_colortype(SkColorType skCT, sk_colortype_t* cCT) { for (size_t i = 0; i < SK_ARRAY_COUNT(gColorTypeMap); ++i) { if (gColorTypeMap[i].fSK == skCT) { if (cCT) { *cCT = gColorTypeMap[i].fC; } return true; } } return false; } static bool from_c_alphatype(sk_alphatype_t cAT, SkAlphaType* skAT) { for (size_t i = 0; i < SK_ARRAY_COUNT(gAlphaTypeMap); ++i) { if (gAlphaTypeMap[i].fC == cAT) { if (skAT) { *skAT = gAlphaTypeMap[i].fSK; } return true; } } return false; } static bool from_c_info(const sk_imageinfo_t& cinfo, SkImageInfo* info) { SkColorType ct; SkAlphaType at; if (!from_c_colortype(cinfo.colorType, &ct)) { // optionally report error to client? return false; } if (!from_c_alphatype(cinfo.alphaType, &at)) { // optionally report error to client? return false; } if (info) { *info = SkImageInfo::Make(cinfo.width, cinfo.height, ct, at); } return true; } const struct { sk_pixelgeometry_t fC; SkPixelGeometry fSK; } gPixelGeometryMap[] = { { UNKNOWN_SK_PIXELGEOMETRY, kUnknown_SkPixelGeometry }, { RGB_H_SK_PIXELGEOMETRY, kRGB_H_SkPixelGeometry }, { BGR_H_SK_PIXELGEOMETRY, kBGR_H_SkPixelGeometry }, { RGB_V_SK_PIXELGEOMETRY, kRGB_V_SkPixelGeometry }, { BGR_V_SK_PIXELGEOMETRY, kBGR_V_SkPixelGeometry }, }; static bool from_c_pixelgeometry(sk_pixelgeometry_t cGeom, SkPixelGeometry* skGeom) { for (size_t i = 0; i < SK_ARRAY_COUNT(gPixelGeometryMap); ++i) { if (gPixelGeometryMap[i].fC == cGeom) { if (skGeom) { *skGeom = gPixelGeometryMap[i].fSK; } return true; } } return false; } static void from_c_matrix(const sk_matrix_t* cmatrix, SkMatrix* matrix) { matrix->setAll(cmatrix->mat[0], cmatrix->mat[1], cmatrix->mat[2], cmatrix->mat[3], cmatrix->mat[4], cmatrix->mat[5], cmatrix->mat[6], cmatrix->mat[7], cmatrix->mat[8]); } const struct { sk_path_direction_t fC; SkPath::Direction fSk; } gPathDirMap[] = { { CW_SK_PATH_DIRECTION, SkPath::kCW_Direction }, { CCW_SK_PATH_DIRECTION, SkPath::kCCW_Direction }, }; static bool from_c_path_direction(sk_path_direction_t cdir, SkPath::Direction* dir) { for (size_t i = 0; i < SK_ARRAY_COUNT(gPathDirMap); ++i) { if (gPathDirMap[i].fC == cdir) { if (dir) { *dir = gPathDirMap[i].fSk; } return true; } } return false; } static SkData* AsData(const sk_data_t* cdata) { return reinterpret_cast(const_cast(cdata)); } static sk_data_t* ToData(SkData* data) { return reinterpret_cast(data); } static sk_rect_t ToRect(const SkRect& rect) { return reinterpret_cast(rect); } static const SkRect& AsRect(const sk_rect_t& crect) { return reinterpret_cast(crect); } static const SkPath& AsPath(const sk_path_t& cpath) { return reinterpret_cast(cpath); } static SkPath* as_path(sk_path_t* cpath) { return reinterpret_cast(cpath); } static const SkImage* AsImage(const sk_image_t* cimage) { return reinterpret_cast(cimage); } static sk_image_t* ToImage(SkImage* cimage) { return reinterpret_cast(cimage); } static sk_canvas_t* ToCanvas(SkCanvas* canvas) { return reinterpret_cast(canvas); } static SkCanvas* AsCanvas(sk_canvas_t* ccanvas) { return reinterpret_cast(ccanvas); } static SkPictureRecorder* AsPictureRecorder(sk_picture_recorder_t* crec) { return reinterpret_cast(crec); } static sk_picture_recorder_t* ToPictureRecorder(SkPictureRecorder* rec) { return reinterpret_cast(rec); } static const SkPicture* AsPicture(const sk_picture_t* cpic) { return reinterpret_cast(cpic); } static SkPicture* AsPicture(sk_picture_t* cpic) { return reinterpret_cast(cpic); } static sk_picture_t* ToPicture(SkPicture* pic) { return reinterpret_cast(pic); } /////////////////////////////////////////////////////////////////////////////////////////// sk_colortype_t sk_colortype_get_default_8888() { sk_colortype_t ct; if (!to_c_colortype(kN32_SkColorType, &ct)) { ct = UNKNOWN_SK_COLORTYPE; } return ct; } /////////////////////////////////////////////////////////////////////////////////////////// sk_image_t* sk_image_new_raster_copy(const sk_imageinfo_t* cinfo, const void* pixels, size_t rowBytes) { SkImageInfo info; if (!from_c_info(*cinfo, &info)) { return NULL; } return (sk_image_t*)SkImage::NewRasterCopy(info, pixels, rowBytes); } sk_image_t* sk_image_new_from_encoded(const sk_data_t* cdata, const sk_irect_t* subset) { return ToImage(SkImage::NewFromEncoded(AsData(cdata), reinterpret_cast(subset))); } sk_data_t* sk_image_encode(const sk_image_t* cimage) { return ToData(AsImage(cimage)->encode()); } void sk_image_ref(const sk_image_t* cimage) { AsImage(cimage)->ref(); } void sk_image_unref(const sk_image_t* cimage) { AsImage(cimage)->unref(); } int sk_image_get_width(const sk_image_t* cimage) { return AsImage(cimage)->width(); } int sk_image_get_height(const sk_image_t* cimage) { return AsImage(cimage)->height(); } uint32_t sk_image_get_unique_id(const sk_image_t* cimage) { return AsImage(cimage)->uniqueID(); } /////////////////////////////////////////////////////////////////////////////////////////// sk_path_t* sk_path_new() { return (sk_path_t*)new SkPath; } void sk_path_delete(sk_path_t* cpath) { delete as_path(cpath); } void sk_path_move_to(sk_path_t* cpath, float x, float y) { as_path(cpath)->moveTo(x, y); } void sk_path_line_to(sk_path_t* cpath, float x, float y) { as_path(cpath)->lineTo(x, y); } void sk_path_quad_to(sk_path_t* cpath, float x0, float y0, float x1, float y1) { as_path(cpath)->quadTo(x0, y0, x1, y1); } void sk_path_conic_to(sk_path_t* cpath, float x0, float y0, float x1, float y1, float w) { as_path(cpath)->conicTo(x0, y0, x1, y1, w); } void sk_path_cubic_to(sk_path_t* cpath, float x0, float y0, float x1, float y1, float x2, float y2) { as_path(cpath)->cubicTo(x0, y0, x1, y1, x2, y2); } void sk_path_close(sk_path_t* cpath) { as_path(cpath)->close(); } void sk_path_add_rect(sk_path_t* cpath, const sk_rect_t* crect, sk_path_direction_t cdir) { SkPath::Direction dir; if (!from_c_path_direction(cdir, &dir)) { return; } as_path(cpath)->addRect(AsRect(*crect), dir); } void sk_path_add_oval(sk_path_t* cpath, const sk_rect_t* crect, sk_path_direction_t cdir) { SkPath::Direction dir; if (!from_c_path_direction(cdir, &dir)) { return; } as_path(cpath)->addOval(AsRect(*crect), dir); } bool sk_path_get_bounds(const sk_path_t* cpath, sk_rect_t* crect) { const SkPath& path = AsPath(*cpath); if (path.isEmpty()) { if (crect) { *crect = ToRect(SkRect::MakeEmpty()); } return false; } if (crect) { *crect = ToRect(path.getBounds()); } return true; } /////////////////////////////////////////////////////////////////////////////////////////// void sk_canvas_save(sk_canvas_t* ccanvas) { AsCanvas(ccanvas)->save(); } void sk_canvas_save_layer(sk_canvas_t* ccanvas, const sk_rect_t* crect, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawRect(AsRect(*crect), AsPaint(*cpaint)); } void sk_canvas_restore(sk_canvas_t* ccanvas) { AsCanvas(ccanvas)->restore(); } void sk_canvas_translate(sk_canvas_t* ccanvas, float dx, float dy) { AsCanvas(ccanvas)->translate(dx, dy); } void sk_canvas_scale(sk_canvas_t* ccanvas, float sx, float sy) { AsCanvas(ccanvas)->scale(sx, sy); } void sk_canvas_rotate_degress(sk_canvas_t* ccanvas, float degrees) { AsCanvas(ccanvas)->rotate(degrees); } void sk_canvas_rotate_radians(sk_canvas_t* ccanvas, float radians) { AsCanvas(ccanvas)->rotate(SkRadiansToDegrees(radians)); } void sk_canvas_skew(sk_canvas_t* ccanvas, float sx, float sy) { AsCanvas(ccanvas)->skew(sx, sy); } void sk_canvas_concat(sk_canvas_t* ccanvas, const sk_matrix_t* cmatrix) { SkASSERT(cmatrix); SkMatrix matrix; from_c_matrix(cmatrix, &matrix); AsCanvas(ccanvas)->concat(matrix); } void sk_canvas_clip_rect(sk_canvas_t* ccanvas, const sk_rect_t* crect) { AsCanvas(ccanvas)->clipRect(AsRect(*crect)); } void sk_canvas_clip_path(sk_canvas_t* ccanvas, const sk_path_t* cpath) { AsCanvas(ccanvas)->clipPath(AsPath(*cpath)); } void sk_canvas_draw_paint(sk_canvas_t* ccanvas, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawPaint(AsPaint(*cpaint)); } void sk_canvas_draw_rect(sk_canvas_t* ccanvas, const sk_rect_t* crect, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawRect(AsRect(*crect), AsPaint(*cpaint)); } void sk_canvas_draw_circle(sk_canvas_t* ccanvas, float cx, float cy, float rad, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawCircle(cx, cy, rad, AsPaint(*cpaint)); } void sk_canvas_draw_oval(sk_canvas_t* ccanvas, const sk_rect_t* crect, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawOval(AsRect(*crect), AsPaint(*cpaint)); } void sk_canvas_draw_path(sk_canvas_t* ccanvas, const sk_path_t* cpath, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawPath(AsPath(*cpath), AsPaint(*cpaint)); } void sk_canvas_draw_image(sk_canvas_t* ccanvas, const sk_image_t* cimage, float x, float y, const sk_paint_t* cpaint) { AsCanvas(ccanvas)->drawImage(AsImage(cimage), x, y, AsPaint(cpaint)); } void sk_canvas_draw_image_rect(sk_canvas_t* ccanvas, const sk_image_t* cimage, const sk_rect_t* csrcR, const sk_rect_t* cdstR, const sk_paint_t* cpaint) { SkCanvas* canvas = AsCanvas(ccanvas); const SkImage* image = AsImage(cimage); const SkRect& dst = AsRect(*cdstR); const SkPaint* paint = AsPaint(cpaint); if (csrcR) { canvas->drawImageRect(image, AsRect(*csrcR), dst, paint); } else { canvas->drawImageRect(image, dst, paint); } } void sk_canvas_draw_picture(sk_canvas_t* ccanvas, const sk_picture_t* cpicture, const sk_matrix_t* cmatrix, const sk_paint_t* cpaint) { const SkMatrix* matrixPtr = NULL; SkMatrix matrix; if (cmatrix) { from_c_matrix(cmatrix, &matrix); matrixPtr = &matrix; } AsCanvas(ccanvas)->drawPicture(AsPicture(cpicture), matrixPtr, AsPaint(cpaint)); } /////////////////////////////////////////////////////////////////////////////////////////// sk_surface_t* sk_surface_new_raster(const sk_imageinfo_t* cinfo, const sk_surfaceprops_t* props) { SkImageInfo info; if (!from_c_info(*cinfo, &info)) { return NULL; } SkPixelGeometry geo = kUnknown_SkPixelGeometry; if (props && !from_c_pixelgeometry(props->pixelGeometry, &geo)) { return NULL; } SkSurfaceProps surfProps(0, geo); return (sk_surface_t*)SkSurface::NewRaster(info, &surfProps); } sk_surface_t* sk_surface_new_raster_direct(const sk_imageinfo_t* cinfo, void* pixels, size_t rowBytes, const sk_surfaceprops_t* props) { SkImageInfo info; if (!from_c_info(*cinfo, &info)) { return NULL; } SkPixelGeometry geo = kUnknown_SkPixelGeometry; if (props && !from_c_pixelgeometry(props->pixelGeometry, &geo)) { return NULL; } SkSurfaceProps surfProps(0, geo); return (sk_surface_t*)SkSurface::NewRasterDirect(info, pixels, rowBytes, &surfProps); } void sk_surface_unref(sk_surface_t* csurf) { SkSafeUnref((SkSurface*)csurf); } sk_canvas_t* sk_surface_get_canvas(sk_surface_t* csurf) { SkSurface* surf = (SkSurface*)csurf; return (sk_canvas_t*)surf->getCanvas(); } sk_image_t* sk_surface_new_image_snapshot(sk_surface_t* csurf) { SkSurface* surf = (SkSurface*)csurf; return (sk_image_t*)surf->newImageSnapshot(); } /////////////////////////////////////////////////////////////////////////////////////////// sk_picture_recorder_t* sk_picture_recorder_new() { return ToPictureRecorder(new SkPictureRecorder); } void sk_picture_recorder_delete(sk_picture_recorder_t* crec) { delete AsPictureRecorder(crec); } sk_canvas_t* sk_picture_recorder_begin_recording(sk_picture_recorder_t* crec, const sk_rect_t* cbounds) { return ToCanvas(AsPictureRecorder(crec)->beginRecording(AsRect(*cbounds))); } sk_picture_t* sk_picture_recorder_end_recording(sk_picture_recorder_t* crec) { return ToPicture(AsPictureRecorder(crec)->endRecording()); } void sk_picture_ref(sk_picture_t* cpic) { SkSafeRef(AsPicture(cpic)); } void sk_picture_unref(sk_picture_t* cpic) { SkSafeUnref(AsPicture(cpic)); } uint32_t sk_picture_get_unique_id(sk_picture_t* cpic) { return AsPicture(cpic)->uniqueID(); } sk_rect_t sk_picture_get_bounds(sk_picture_t* cpic) { return ToRect(AsPicture(cpic)->cullRect()); } /////////////////////////////////////////////////////////////////////////////////////////// #include "../../include/effects/SkGradientShader.h" #include "sk_shader.h" const struct { sk_shader_tilemode_t fC; SkShader::TileMode fSK; } gTileModeMap[] = { { CLAMP_SK_SHADER_TILEMODE, SkShader::kClamp_TileMode }, { REPEAT_SK_SHADER_TILEMODE, SkShader::kRepeat_TileMode }, { MIRROR_SK_SHADER_TILEMODE, SkShader::kMirror_TileMode }, }; static bool from_c_tilemode(sk_shader_tilemode_t cMode, SkShader::TileMode* skMode) { for (size_t i = 0; i < SK_ARRAY_COUNT(gTileModeMap); ++i) { if (cMode == gTileModeMap[i].fC) { if (skMode) { *skMode = gTileModeMap[i].fSK; } return true; } } return false; } void sk_shader_ref(sk_shader_t* cshader) { SkSafeRef(AsShader(cshader)); } void sk_shader_unref(sk_shader_t* cshader) { SkSafeUnref(AsShader(cshader)); } sk_shader_t* sk_shader_new_linear_gradient(const sk_point_t pts[2], const sk_color_t colors[], const float colorPos[], int colorCount, sk_shader_tilemode_t cmode, const sk_matrix_t* cmatrix) { SkShader::TileMode mode; if (!from_c_tilemode(cmode, &mode)) { return NULL; } SkMatrix matrix; if (cmatrix) { from_c_matrix(cmatrix, &matrix); } else { matrix.setIdentity(); } SkShader* s = SkGradientShader::CreateLinear(reinterpret_cast(pts), reinterpret_cast(colors), colorPos, colorCount, mode, 0, &matrix); return (sk_shader_t*)s; } static const SkPoint& to_skpoint(const sk_point_t& p) { return reinterpret_cast(p); } sk_shader_t* sk_shader_new_radial_gradient(const sk_point_t* ccenter, float radius, const sk_color_t colors[], const float colorPos[], int colorCount, sk_shader_tilemode_t cmode, const sk_matrix_t* cmatrix) { SkShader::TileMode mode; if (!from_c_tilemode(cmode, &mode)) { return NULL; } SkMatrix matrix; if (cmatrix) { from_c_matrix(cmatrix, &matrix); } else { matrix.setIdentity(); } SkPoint center = to_skpoint(*ccenter); SkShader* s = SkGradientShader::CreateRadial( center, (SkScalar)radius, reinterpret_cast(colors), reinterpret_cast(colorPos), colorCount, mode, 0, &matrix); return (sk_shader_t*)s; } sk_shader_t* sk_shader_new_sweep_gradient(const sk_point_t* ccenter, const sk_color_t colors[], const float colorPos[], int colorCount, const sk_matrix_t* cmatrix) { SkMatrix matrix; if (cmatrix) { from_c_matrix(cmatrix, &matrix); } else { matrix.setIdentity(); } SkShader* s = SkGradientShader::CreateSweep( (SkScalar)(ccenter->x), (SkScalar)(ccenter->y), reinterpret_cast(colors), reinterpret_cast(colorPos), colorCount, 0, &matrix); return (sk_shader_t*)s; } sk_shader_t* sk_shader_new_two_point_conical_gradient(const sk_point_t* start, float startRadius, const sk_point_t* end, float endRadius, const sk_color_t colors[], const float colorPos[], int colorCount, sk_shader_tilemode_t cmode, const sk_matrix_t* cmatrix) { SkShader::TileMode mode; if (!from_c_tilemode(cmode, &mode)) { return NULL; } SkMatrix matrix; if (cmatrix) { from_c_matrix(cmatrix, &matrix); } else { matrix.setIdentity(); } SkPoint skstart = to_skpoint(*start); SkPoint skend = to_skpoint(*end); SkShader* s = SkGradientShader::CreateTwoPointConical( skstart, (SkScalar)startRadius, skend, (SkScalar)endRadius, reinterpret_cast(colors), reinterpret_cast(colorPos), colorCount, mode, 0, &matrix); return (sk_shader_t*)s; } /////////////////////////////////////////////////////////////////////////////////////////// #include "../../include/effects/SkBlurMaskFilter.h" #include "sk_maskfilter.h" const struct { sk_blurstyle_t fC; SkBlurStyle fSk; } gBlurStylePairs[] = { { NORMAL_SK_BLUR_STYLE, kNormal_SkBlurStyle }, { SOLID_SK_BLUR_STYLE, kSolid_SkBlurStyle }, { OUTER_SK_BLUR_STYLE, kOuter_SkBlurStyle }, { INNER_SK_BLUR_STYLE, kInner_SkBlurStyle }, }; static bool find_blurstyle(sk_blurstyle_t csrc, SkBlurStyle* dst) { for (size_t i = 0; i < SK_ARRAY_COUNT(gBlurStylePairs); ++i) { if (gBlurStylePairs[i].fC == csrc) { if (dst) { *dst = gBlurStylePairs[i].fSk; } return true; } } return false; } void sk_maskfilter_ref(sk_maskfilter_t* cfilter) { SkSafeRef(AsMaskFilter(cfilter)); } void sk_maskfilter_unref(sk_maskfilter_t* cfilter) { SkSafeUnref(AsMaskFilter(cfilter)); } sk_maskfilter_t* sk_maskfilter_new_blur(sk_blurstyle_t cstyle, float sigma) { SkBlurStyle style; if (!find_blurstyle(cstyle, &style)) { return NULL; } return ToMaskFilter(SkBlurMaskFilter::Create(style, sigma)); } /////////////////////////////////////////////////////////////////////////////////////////// sk_data_t* sk_data_new_with_copy(const void* src, size_t length) { return ToData(SkData::NewWithCopy(src, length)); } sk_data_t* sk_data_new_from_malloc(const void* memory, size_t length) { return ToData(SkData::NewFromMalloc(memory, length)); } sk_data_t* sk_data_new_subset(const sk_data_t* csrc, size_t offset, size_t length) { return ToData(SkData::NewSubset(AsData(csrc), offset, length)); } void sk_data_ref(const sk_data_t* cdata) { SkSafeRef(AsData(cdata)); } void sk_data_unref(const sk_data_t* cdata) { SkSafeUnref(AsData(cdata)); } size_t sk_data_get_size(const sk_data_t* cdata) { return AsData(cdata)->size(); } const void* sk_data_get_data(const sk_data_t* cdata) { return AsData(cdata)->data(); } ///////////////////////////////////////////////////////////////////////////////////////////