diff --git a/imgui_draw.cpp b/imgui_draw.cpp index aba91311..ca30cc48 100644 --- a/imgui_draw.cpp +++ b/imgui_draw.cpp @@ -1489,14 +1489,13 @@ inline bool AddRoundCornerRect(ImDrawList* draw_list, const ImVec2& a, const ImV const ImVec2 mdy2(mdy.x, mdy.y - line_width), mcy2(mcy.x, mcy.y - line_width); const ImVec2 id(cd.x + rad_d, cd.y - rad_d), ic(cc.x - rad_c, cc.y - rad_c); - // Generate points CA2-CD2, which are the corner points but inset towards the centre by the line width + // Generate points CA2-CD2, which are the corner points but inset towards the center by the line width // These are used as edge line end points when rendering un-rounded corners in non-filled mode const ImVec2 ca2(ca.x + line_width, ca.y + line_width), cb2(cb.x - line_width, cb.y + line_width); const ImVec2 cc2(cc.x - line_width, cc.y - line_width), cd2(cd.x + line_width, cd.y - line_width); - // Reserve enough space for the worse-case vertex/index count - // (we give back any left over space later) + // Reserve enough space for the worse-case vertex/index count (we give back any left over space later) const int vtcs = 48; const int idcs = 32 * 3; draw_list->PrimReserve(idcs, vtcs); @@ -1536,10 +1535,8 @@ inline bool AddRoundCornerRect(ImDrawList* draw_list, const ImVec2& a, const ImV ImVec2(ImLerp(corner_uv[0].x, corner_uv[b##corner ? 2 : 1].x, px), ImLerp(corner_uv[0].y, corner_uv[b##corner ? 2 : 1].y, py)); \ draw_list->_VtxWritePtr[d].col = col - // Set up the outer corners (vca-vcd being the four outermost - // corners) - // If the corner is rounded we use the "empty" corner UV, if not we use - // the "filled" one + // Set up the outer corners (vca-vcd being the four outermost corners) + // If the corner is rounded we use the "empty" corner UV, if not we use the "filled" one. const int vca = 0, vcb = 1, vcc = 2, vcd = 3; VTX_WRITE(vca, ca, ba ? 2 : 1); VTX_WRITE(vcb, cb, bb ? 2 : 1); @@ -2044,19 +2041,13 @@ inline bool AddRoundCornerCircle(ImDrawList* draw_list, const ImVec2& center, fl IM_ASSERT(tex_id == draw_list->_TextureIdStack.back()); // Use high-level ImGui::PushFont() or low-level ImDrawList::PushTextureId() to change font. const int rad = (int)radius; - if ((rad < 1) || // Radius 0 will cause issues with the UV lookup below (rad > data->Font->ContainerAtlas->RoundCornersMaxSize)) - { - // We can't handle this - return false; - } + return false; // We can't handle this // Debug command to force this render path to only execute when shift is held if (!ImGui::GetIO().KeyShift) - { return false; - } // Calculate UVs for the three points we are interested in from the texture // corner_uv[0] is the innermost point of the circle (solid for filled circles) @@ -2086,7 +2077,7 @@ inline bool AddRoundCornerCircle(ImDrawList* draw_list, const ImVec2& center, fl const float sqrt_two_minus_one = 0.41421356f; // sqrt(2.0f) - 1.0f // The positions of our intermediate vertices - // These are organised by quadrant (TL = top-left, etc), + // These are organized by quadrant (TL = top-left, etc), // with A being the first point encountered when walking clockwise // around the circle within that quadrant, B the second and C the third. // These points form a tight fit around the outer edge of the circle. @@ -2129,9 +2120,9 @@ inline bool AddRoundCornerCircle(ImDrawList* draw_list, const ImVec2& center, fl draw_list->PrimReserve(num_indices, num_verts); // Write a vertex - // d is the vertex index to write to - // vert_pos is the vertex position - // uv_coord is the UV coordinate + // - d is the vertex index to write to + // - vert_pos is the vertex position + // - uv_coord is the UV coordinate #define VTX_WRITE(d, vert_pos, uv_coord) \ draw_list->_VtxWritePtr[d].pos = vert_pos; \ draw_list->_VtxWritePtr[d].uv = uv_coord; \ @@ -2157,13 +2148,12 @@ inline bool AddRoundCornerCircle(ImDrawList* draw_list, const ImVec2& center, fl if (fill) { - // The centre + // The center VTX_WRITE(16, c, corner_uv[0]); } else { // Inside vertices, offset from the "B" vertices by the line width - const ImVec2 tlbi = ImVec2(ImLerp(c.x, tl.x, half_sqrt_two - width_offset_parametric), ImLerp(c.y, tl.y, half_sqrt_two - width_offset_parametric)); const ImVec2 trbi = ImVec2(ImLerp(c.x, br.x, half_sqrt_two - width_offset_parametric), ImLerp(c.y, tl.y, half_sqrt_two - width_offset_parametric)); const ImVec2 brbi = ImVec2(ImLerp(c.x, br.x, half_sqrt_two - width_offset_parametric), ImLerp(c.y, br.y, half_sqrt_two - width_offset_parametric)); @@ -2196,7 +2186,7 @@ inline bool AddRoundCornerCircle(ImDrawList* draw_list, const ImVec2& center, fl if (fill) { - // A simple fan of tris from the centre + // A simple fan of tris from the center IDX_WRITE_TRI(0, 16, 0, 1); IDX_WRITE_TRI(3, 16, 1, 2); IDX_WRITE_TRI(6, 16, 2, 3); @@ -2268,11 +2258,8 @@ void ImDrawList::AddCircle(const ImVec2& center, float radius, ImU32 col, int nu return; // First try the fast texture-based renderer, and only if that can't handle this fall back to paths - if (AddRoundCornerCircle(this, center, radius, col, false)) - { return; - } // Obtain segment count if (num_segments <= 0) @@ -3582,7 +3569,7 @@ void ImFontAtlasBuildInit(ImFontAtlas* atlas) const int FONT_ATLAS_ROUNDED_CORNER_TEX_PADDING = 2; // Padding applied to the Y axis to separate the two halves of the image // This must be a multiple of two -const int FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING = 4; +const int FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING = 4; // Register the rectangles we need for the rounded corner images static void ImFontAtlasBuildRegisterRoundCornersCustomRects(ImFontAtlas* atlas) @@ -3594,9 +3581,8 @@ static void ImFontAtlasBuildRegisterRoundCornersCustomRects(ImFontAtlas* atlas) const int pad = FONT_ATLAS_ROUNDED_CORNER_TEX_PADDING; const int max = atlas->RoundCornersMaxSize; - for (int n = 0; n < max; n++) - atlas->RoundCornersRectIds.push_back(atlas->AddCustomRectRegular(n + 1 + pad * 2, n + 1 + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING + pad * 2)); + atlas->RoundCornersRectIds.push_back(atlas->AddCustomRectRegular(n + 1 + pad * 2, n + 1 + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING + pad * 2)); } // Generate the actual pixel data for rounded corners in the atlas @@ -3618,20 +3604,19 @@ static void ImFontAtlasBuildRenderRoundCornersTexData(ImFontAtlas* atlas) IM_ASSERT((int)n < atlas->RoundCornersRectIds.Size); ImFontAtlasCustomRect& r = atlas->CustomRects[atlas->RoundCornersRectIds[id]]; IM_ASSERT(r.IsPacked()); - IM_ASSERT(r.Width == n + 1 + pad * 2 && r.Height == n + 1 + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING + pad * 2); + IM_ASSERT(r.Width == n + 1 + pad * 2 && r.Height == n + 1 + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING + pad * 2); // What we're doing here is generating a rectangular image that contains the data for both the filled and // stroked variants of the corner with the radius specified. We do it like this because we only need 45 degrees // worth of curve (as each corner mirrors the texture to get the full 90 degrees), and hence with a little care // we can put both variants into one texture by using two triangular regions. In practice this is a little more // tricky than it first looks because if the two regions are packed tightly you get filtering errors where they meet, - // so we offset one vertically from the other by FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING pixels. + // so we offset one vertically from the other by FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING pixels. // The stroked version is at the top-right of the texture, and the filled version at the bottom-left. - const int radius = (int)(r.Width - pad * 2); const float stroke_width = 1.0f; - for (int y = -pad; y < (int)(radius + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING); y++) + for (int y = -pad; y < (int)(radius + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING); y++) for (int x = -pad; x < (int)(radius); x++) { // We want the pad area to essentially contain a clamped version of the 0th row/column, so @@ -3640,14 +3625,13 @@ static void ImFontAtlasBuildRenderRoundCornersTexData(ImFontAtlas* atlas) int cy = ImMax(y, 0); // The XY region - // the data for stroked ones. We add half of FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING so that + // the data for stroked ones. We add half of FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING so that // each side gets a buffer zone to avoid filtering artifacts. - bool filled = x < (y - (FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING >> 1)); - + const bool filled = x < (y - (FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING >> 1)); if (filled) { // The filled version starts a little further down the texture to give us the padding in the middle. - cy = ImMax(y - FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING, 0); + cy = ImMax(y - FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING, 0); } const float dist = ImSqrt((float)(cx*cx+cy*cy)) - (float)(radius - (filled ? 0 : stroke_width)); @@ -3668,21 +3652,19 @@ static void ImFontAtlasBuildRenderRoundCornersTexData(ImFontAtlas* atlas) atlas->TexPixelsAlpha8[offset] = (unsigned char)(0xFF * ImSaturate(alpha)); } - // We generate two sets of UVs for each rectangle, one for the filled portion and one for the - // unfilled bit - + // We generate two sets of UVs for each rectangle, one for the filled portion and one for the unfilled bit. for (unsigned int stage = 0; stage < 2; stage++) { - ImFontAtlasCustomRect stageRect = r; + ImFontAtlasCustomRect stage_rect = r; + + const bool filled = (stage == 0); + stage_rect.X += pad; + stage_rect.Y += pad + (filled ? FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING : 0); + stage_rect.Width -= (pad * 2); + stage_rect.Height -= (pad * 2) + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTER_PADDING; - bool filled = stage == 0; ImVec2 uv0, uv1; - stageRect.X += pad; - stageRect.Y += pad + (filled ? FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING : 0); - stageRect.Width -= (pad * 2); - stageRect.Height -= (pad * 2) + FONT_ATLAS_ROUNDED_CORNER_TEX_CENTRE_PADDING; - - atlas->CalcCustomRectUV(&stageRect, &uv0, &uv1); + atlas->CalcCustomRectUV(&stage_rect, &uv0, &uv1); ImVector& uvs = (filled ? atlas->TexUvRoundCornerFilled : atlas->TexUvRoundCornerStroked); uvs.push_back(ImVec4(uv0.x, uv0.y, uv1.x, uv1.y)); }