/* * Copyright 2018 Google Inc. * * Use of this source code is governed by a BSD-style license that can * be found in the LICENSE file. * */ #include #include #include // // // #include "transform_stack.h" // // // #define SKC_TRANSFORM_SUFFIX_EVAL(a) a #define SKC_TRANSFORM_SUFFIX_CONCAT(func) \ SKC_TRANSFORM_SUFFIX_EVAL(func)##SKC_TRANSFORM_SUFFIX_EVAL(SKC_TRANSFORM_FLOAT_SUFFIX) // // // #define SKC_TRANSFORM_SIN(x) SKC_TRANSFORM_SUFFIX_CONCAT(sin)(x) #define SKC_TRANSFORM_COS(x) SKC_TRANSFORM_SUFFIX_CONCAT(cos)(x) #define SKC_TRANSFORM_TAN(x) SKC_TRANSFORM_SUFFIX_CONCAT(tan)(x) #define SKC_TRANSFORM_RCP(x) (SKC_TRANSFORM_SUFFIX_CONCAT(1.0) / (x)) // // // union skc_transform_stack_3x3_u { skc_transform_float_t a9[9]; struct { skc_transform_float_t sx; skc_transform_float_t shx; skc_transform_float_t tx; skc_transform_float_t shy; skc_transform_float_t sy; skc_transform_float_t ty; skc_transform_float_t w0; skc_transform_float_t w1; skc_transform_float_t w2; }; }; struct skc_transform_stack { uint32_t size; uint32_t count; skc_transform_weakref_t * weakrefs; union skc_transform_stack_3x3_u * transforms; }; // // // static void skc_transform_stack_3x3_u_copy(union skc_transform_stack_3x3_u * const __restrict dst, union skc_transform_stack_3x3_u const * const __restrict src) { for (int32_t ii=0; ii<9; ii++) dst->a9[ii] = src->a9[ii]; } // // C = A * B // static void skc_transform_stack_3x3_u_multiply(union skc_transform_stack_3x3_u * const __restrict C, union skc_transform_stack_3x3_u const * const __restrict A, union skc_transform_stack_3x3_u const * const __restrict B) { C->sx = A->sx * B->sx + A->shx * B->shy + A->tx * B->w0; C->shx = A->sx * B->shx + A->shx * B->sy + A->tx * B->w1; C->tx = A->sx * B->tx + A->shx * B->ty + A->tx * B->w2; C->shy = A->shy * B->sx + A->sy * B->shy + A->ty * B->w0; C->sy = A->shy * B->shx + A->sy * B->sy + A->ty * B->w1; C->ty = A->shy * B->tx + A->sy * B->ty + A->ty * B->w2; C->w0 = A->w0 * B->sx + A->w1 * B->shy + A->w2 * B->w0; C->w1 = A->w0 * B->shx + A->w1 * B->sy + A->w2 * B->w1; C->w2 = A->w0 * B->tx + A->w1 * B->ty + A->w2 * B->w2; } // // // static void skc_transform_stack_resize(struct skc_transform_stack * const ts, uint32_t const size) { ts->size = size; ts->weakrefs = realloc(ts->weakrefs, size * sizeof(*ts->weakrefs)); ts->transforms = realloc(ts->transforms,size * sizeof(*ts->transforms)); } static void skc_transform_stack_ensure(struct skc_transform_stack * const ts) { if (ts->count < ts->size) return; // increase by 50% and by at least 8 skc_transform_stack_resize(ts,ts->size + max(ts->size/2,8)); } // // // struct skc_transform_stack * skc_transform_stack_create(uint32_t const size) { struct skc_transform_stack * ts = malloc(sizeof(*ts)); ts->size = size; ts->count = 0; ts->transforms = NULL; ts->weakrefs = NULL; skc_transform_stack_resize(ts,size); return ts; } void skc_transform_stack_release(struct skc_transform_stack * const ts) { free(ts->transforms); free(ts->weakrefs); free(ts); } // // // uint32_t skc_transform_stack_save(struct skc_transform_stack * const ts) { return ts->count; } void skc_transform_stack_restore(struct skc_transform_stack * const ts, uint32_t const restore) { ts->count = restore; } // // // static union skc_transform_stack_3x3_u * skc_transform_stack_tos(struct skc_transform_stack * const ts) { return ts->transforms + ts->count - 1; } // // // #if 0 void skc_transform_to_f32a8(float f32a8[8], skc_transform_float_t const a9[9]) { if (a9[8] == 1.0) { f32a8[0] = (float)a9[0]; f32a8[1] = (float)a9[1]; f32a8[2] = (float)a9[2]; f32a8[3] = (float)a9[3]; f32a8[4] = (float)a9[4]; f32a8[5] = (float)a9[5]; f32a8[6] = (float)a9[6]; f32a8[7] = (float)a9[7]; } else { skc_transform_float_t const rcp = 1.0 / a9[8]; f32a8[0] = (float)(a9[0] * rcp); f32a8[1] = (float)(a9[1] * rcp); f32a8[2] = (float)(a9[2] * rcp); f32a8[3] = (float)(a9[3] * rcp); f32a8[4] = (float)(a9[4] * rcp); f32a8[5] = (float)(a9[5] * rcp); f32a8[6] = (float)(a9[6] * rcp); f32a8[7] = (float)(a9[7] * rcp); } } #endif // // // skc_transform_float_t * skc_transform_stack_top_transform(struct skc_transform_stack * const ts) { return skc_transform_stack_tos(ts)->a9; } skc_weakref_t * skc_transform_stack_top_weakref(struct skc_transform_stack * const ts) { return ts->weakrefs + ts->count - 1; } // // // void skc_transform_stack_drop(struct skc_transform_stack * const ts) { assert(ts->count >= 1); ts->count -= 1; } void skc_transform_stack_dup(struct skc_transform_stack * const ts) { skc_transform_stack_ensure(ts); union skc_transform_stack_3x3_u * const tos = skc_transform_stack_tos(ts); skc_transform_stack_3x3_u_copy(tos+1,tos); ts->weakrefs[ts->count] = ts->weakrefs[ts->count-1]; ts->count += 1; } // // // void skc_transform_stack_push_matrix(struct skc_transform_stack * const ts, skc_transform_float_t const sx, skc_transform_float_t const shx, skc_transform_float_t const tx, skc_transform_float_t const shy, skc_transform_float_t const sy, skc_transform_float_t const ty, skc_transform_float_t const w0, skc_transform_float_t const w1, skc_transform_float_t const w2) { skc_transform_stack_ensure(ts); union skc_transform_stack_3x3_u * t = ts->transforms + ts->count; t->sx = sx; t->shx = shx; t->tx = tx; t->shy = shy; t->sy = sy; t->ty = ty; t->w0 = w0; t->w1 = w1; t->w2 = w2; ts->weakrefs[ts->count++] = SKC_WEAKREF_INVALID; } void skc_transform_stack_push_identity(struct skc_transform_stack * const ts) { skc_transform_stack_push_matrix(ts, 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_affine(struct skc_transform_stack * const ts, skc_transform_float_t const sx, skc_transform_float_t const shx, skc_transform_float_t const tx, skc_transform_float_t const shy, skc_transform_float_t const sy, skc_transform_float_t const ty) { skc_transform_stack_push_matrix(ts, sx, shx, tx, shy, sy, ty, 0.0, 0.0, 1.0); } void skc_transform_stack_push_translate(struct skc_transform_stack * const ts, skc_transform_float_t const tx, skc_transform_float_t const ty) { skc_transform_stack_push_matrix(ts, 1.0, 0.0, tx, 0.0, 1.0, ty, 0.0, 0.0, 1.0); } void skc_transform_stack_push_scale(struct skc_transform_stack * const ts, skc_transform_float_t const sx, skc_transform_float_t const sy) { skc_transform_stack_push_matrix(ts, sx, 0.0, 0.0, 0.0, sy, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_shear(struct skc_transform_stack * const ts, skc_transform_float_t const shx, skc_transform_float_t const shy) { skc_transform_stack_push_matrix(ts, 1.0, shx, 0.0, shy, 1.0, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_skew_x(struct skc_transform_stack * const ts, skc_transform_float_t const theta) { skc_transform_float_t const tan_theta = SKC_TRANSFORM_TAN(theta); // replace with tanpi if available skc_transform_stack_push_matrix(ts, 1.0, tan_theta,0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_skew_y(struct skc_transform_stack * const ts, skc_transform_float_t const theta) { skc_transform_float_t const tan_theta = SKC_TRANSFORM_TAN(theta); // replace with tanpi if available skc_transform_stack_push_matrix(ts, 1.0, 0.0, 0.0, tan_theta, 1.0, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_rotate(struct skc_transform_stack * const ts, skc_transform_float_t const theta) { skc_transform_float_t const cos_theta = SKC_TRANSFORM_COS(theta); // replace with cospi if available skc_transform_float_t const sin_theta = SKC_TRANSFORM_SIN(theta); // replace with sinpi if available skc_transform_stack_push_matrix(ts, cos_theta,-sin_theta, 0.0, sin_theta, cos_theta, 0.0, 0.0, 0.0, 1.0); } void skc_transform_stack_push_rotate_xy2(struct skc_transform_stack * const ts, skc_transform_float_t const theta, skc_transform_float_t const cx, skc_transform_float_t const cy, skc_transform_float_t const tx, skc_transform_float_t const ty) { skc_transform_float_t const cos_theta = SKC_TRANSFORM_COS(theta); // replace with cospi if available skc_transform_float_t const sin_theta = SKC_TRANSFORM_SIN(theta); // replace with sinpi if available skc_transform_stack_push_matrix(ts, cos_theta,-sin_theta, tx - (cx * cos_theta) + (cy * sin_theta), sin_theta, cos_theta, ty - (cx * sin_theta) - (cy * cos_theta), 0.0, 0.0, 1.0); } void skc_transform_stack_push_rotate_xy(struct skc_transform_stack * const ts, skc_transform_float_t const theta, skc_transform_float_t const cx, skc_transform_float_t const cy) { skc_transform_stack_push_rotate_xy2(ts,theta,cx,cy,cx,cy); } void skc_transform_stack_push_rotate_scale_xy(struct skc_transform_stack * const ts, skc_transform_float_t const theta, skc_transform_float_t const sx, skc_transform_float_t const sy, skc_transform_float_t const cx, skc_transform_float_t const cy) { skc_transform_float_t const cos_theta = SKC_TRANSFORM_COS(theta); // replace with cospi if available skc_transform_float_t const sin_theta = SKC_TRANSFORM_SIN(theta); // replace with sinpi if available skc_transform_stack_push_matrix(ts, sx*cos_theta,-sx*sin_theta, cx - cx*sx*cos_theta + cy*sy*sin_theta, sy*sin_theta, sy*cos_theta, cy - cy*sy*cos_theta - cx*sx*sin_theta, 0.0, 0.0, 1.0); } // // See: https://www.ldv.ei.tum.de/fileadmin/w00bfa/www/content_uploads/Vorlesung_3.2_SpatialTransformations.pdf // #define DET4(m,a,b,c,d) (m->a9[a] * m->a9[d] - m->a9[b] * m->a9[c]) #define DET3(m,a,b,c) (m->a9[a] - m->a9[b] * m->a9[c]) #define DIAG3(m,a,b,c) (m->a9[a] * m->a9[b] * m->a9[c]) #define DIAG2(m,a,b) (m->a9[a] * m->a9[b]) #define X(v,i) v[i*2] #define Y(v,i) v[i*2+1] // // // bool skc_transform_stack_push_quad_to_unit(struct skc_transform_stack * const ts, const float quad_src[8]) { if (!skc_transform_stack_push_unit_to_quad(ts,quad_src)) return false; union skc_transform_stack_3x3_u * const T = skc_transform_stack_tos(ts); #if 0 // // dividing by the determinant (just w2?) // skc_transform_float_t const det = DIAG2(T,0,4) + DIAG3(T,3,7,2) + DIAG3(T,6,1,5) - DIAG3(T,6,4,2) - DIAG2(T,3,1) - DIAG3(T,0,7,5); if (det == 0.0) return false; skc_transform_float_t const rcp = 1.0 / det; const union skc_transform_stack_3x3_u A = { +DET3(T,4,5,7) * rcp, -DET3(T,1,2,7) * rcp, +DET4(T,1,2,4,5) * rcp, -DET3(T,3,5,6) * rcp, +DET3(T,0,2,6) * rcp, -DET4(T,0,2,3,5) * rcp, +DET4(T,3,4,6,7) * rcp, -DET4(T,0,1,6,7) * rcp, +DET4(T,0,1,3,4) * rcp }; #else // just the adjoint can result in large values const union skc_transform_stack_3x3_u A = { +DET3(T,4,5,7), -DET3(T,1,2,7), +DET4(T,1,2,4,5), -DET3(T,3,5,6), +DET3(T,0,2,6), -DET4(T,0,2,3,5), +DET4(T,3,4,6,7), -DET4(T,0,1,6,7), +DET4(T,0,1,3,4) }; #endif skc_transform_stack_3x3_u_copy(T,&A); return true; } // // // bool skc_transform_stack_push_unit_to_quad(struct skc_transform_stack * const ts, const float quad_dst[8]) { skc_transform_float_t const x0 = (skc_transform_float_t)X(quad_dst,0); skc_transform_float_t const y0 = (skc_transform_float_t)Y(quad_dst,0); skc_transform_float_t const x1 = (skc_transform_float_t)X(quad_dst,1); skc_transform_float_t const y1 = (skc_transform_float_t)Y(quad_dst,1); skc_transform_float_t const x2 = (skc_transform_float_t)X(quad_dst,2); skc_transform_float_t const y2 = (skc_transform_float_t)Y(quad_dst,2); skc_transform_float_t const x3 = (skc_transform_float_t)X(quad_dst,3); skc_transform_float_t const y3 = (skc_transform_float_t)Y(quad_dst,3); skc_transform_float_t sx = x1 - x0; skc_transform_float_t shy = y1 - y0; skc_transform_float_t const dx2 = x3 - x2; skc_transform_float_t const dy2 = y3 - y2; skc_transform_float_t const dx3 = -sx - dx2; skc_transform_float_t const dy3 = -shy - dy2; // if both zero then quad_dst is a parallelogram and affine if ((dx3 == 0.0) && (dy3 == 0.0)) { skc_transform_float_t const shx = x2 - x1; skc_transform_float_t const sy = y2 - y1; skc_transform_stack_push_matrix(ts, sx, shx, x0, shy, sy, y0, 0.0, 0.0, 1.0); } else { skc_transform_float_t const dx1 = x1 - x2; skc_transform_float_t const dy1 = y1 - y2; skc_transform_float_t const wx_den = dx1 * dy2 - dx2 * dy1; if (wx_den == 0.0) return false; skc_transform_float_t const w0_num = dx3 * dy2 - dx2 * dy3; skc_transform_float_t const w1_num = dx1 * dy3 - dx3 * dy1; skc_transform_float_t const w0 = w0_num / wx_den; skc_transform_float_t const w1 = w1_num / wx_den; sx += w0 * x1; skc_transform_float_t const shx = x3 - x0 + w1 * x3; shy += w0 * y1; skc_transform_float_t const sy = y3 - y0 + w1 * y3; skc_transform_stack_push_matrix(ts, sx, shx, x0, shy, sy, y0, w0, w1, 1.0); } return true; } // // // bool skc_transform_stack_push_quad_to_quad(struct skc_transform_stack * const ts, const float quad_src[8], const float quad_dst[8]) { if (skc_transform_stack_push_quad_to_unit(ts,quad_src) == false) return false; if (skc_transform_stack_push_unit_to_quad(ts,quad_dst) == false) return false; union skc_transform_stack_3x3_u * const U2Q = skc_transform_stack_tos(ts); union skc_transform_stack_3x3_u * const Q2U = U2Q - 1; union skc_transform_stack_3x3_u Q2Q; // pre-multiply skc_transform_stack_3x3_u_multiply(&Q2Q,U2Q,Q2U); // drop TOS skc_transform_stack_drop(ts); // overwrite TOS skc_transform_stack_3x3_u_copy(Q2U,&Q2Q); return true; } // // // bool skc_transform_stack_push_rect_to_quad(struct skc_transform_stack * const ts, const float x0, const float y0, const float x1, const float y1, const float quad_dst[8]) { if (skc_transform_stack_push_unit_to_quad(ts,quad_dst) == false) return false; const union skc_transform_stack_3x3_u R2U = { SKC_TRANSFORM_RCP((skc_transform_float_t)(x1-x0)), 0.0f, (skc_transform_float_t)-x0, 0.0f, SKC_TRANSFORM_RCP((skc_transform_float_t)(y1-y0)), (skc_transform_float_t)-y0, 0.0f, 0.0f, 1.0, }; union skc_transform_stack_3x3_u * const U2Q = skc_transform_stack_tos(ts); union skc_transform_stack_3x3_u Q2Q; // pre-multiply skc_transform_stack_3x3_u_multiply(&Q2Q,U2Q,&R2U); // overwrite TOS skc_transform_stack_3x3_u_copy(U2Q,&Q2Q); return true; } // // // void skc_transform_stack_concat(struct skc_transform_stack * const ts) { // // Transformation stack matrices are _post-multiplied_ and the top // of stack is replaced with the product: // // TOS' = TOS[-1] * TOS // // -or- // // C = A * B // B = C // if (ts->count <= 1) return; // get A and B union skc_transform_stack_3x3_u * const B = skc_transform_stack_tos(ts); const union skc_transform_stack_3x3_u * const A = B - 1; union skc_transform_stack_3x3_u C; // post multiply skc_transform_stack_3x3_u_multiply(&C,A,B); // overwrite TOS skc_transform_stack_3x3_u_copy(B,&C); // invalidate TOS *skc_transform_stack_top_weakref(ts) = SKC_WEAKREF_INVALID; } // // // void skc_transform_stack_transform_affine(struct skc_transform_stack * const ts, skc_transform_float_t const x_pre, skc_transform_float_t const y_pre, skc_transform_float_t * const x_post, skc_transform_float_t * const y_post) { union skc_transform_stack_3x3_u const * const t = skc_transform_stack_tos(ts); *x_post = x_pre * t->sx + y_pre * t->shx + t->tx; *y_post = x_pre * t->shy + y_pre * t->sy + t->ty; } // // //