#include "solvespace.h" const hRequest Request::HREQUEST_REFERENCE_XY = { 1 }; const hRequest Request::HREQUEST_REFERENCE_YZ = { 2 }; const hRequest Request::HREQUEST_REFERENCE_ZX = { 3 }; void Request::Generate(IdList *entity, IdList *param) { int points = 0; int params = 0; int et = 0; bool hasNormal = false; bool hasDistance = false; int i; Entity e; memset(&e, 0, sizeof(e)); switch(type) { case Request::WORKPLANE: et = Entity::WORKPLANE; points = 1; hasNormal = true; break; case Request::DATUM_POINT: et = 0; points = 1; break; case Request::LINE_SEGMENT: et = Entity::LINE_SEGMENT; points = 2; break; case Request::CIRCLE: et = Entity::CIRCLE; points = 1; params = 1; hasNormal = true; hasDistance = true; break; case Request::ARC_OF_CIRCLE: et = Entity::ARC_OF_CIRCLE; points = 3; hasNormal = true; break; case Request::CUBIC: et = Entity::CUBIC; points = 4; break; case Request::TTF_TEXT: et = Entity::TTF_TEXT; points = 2; hasNormal = true; break; default: oops(); } // Generate the entity that's specific to this request. e.type = et; e.group = group; e.workplane = workplane; e.construction = construction; e.str.strcpy(str.str); e.font.strcpy(font.str); e.h = h.entity(0); // And generate entities for the points for(i = 0; i < points; i++) { Entity p; memset(&p, 0, sizeof(p)); p.workplane = workplane; // points start from entity 1, except for datum point case p.h = h.entity(i+(et ? 1 : 0)); p.group = group; if(workplane.v == Entity::FREE_IN_3D.v) { p.type = Entity::POINT_IN_3D; // params for x y z p.param[0] = AddParam(param, h.param(16 + 3*i + 0)); p.param[1] = AddParam(param, h.param(16 + 3*i + 1)); p.param[2] = AddParam(param, h.param(16 + 3*i + 2)); } else { p.type = Entity::POINT_IN_2D; // params for u v p.param[0] = AddParam(param, h.param(16 + 3*i + 0)); p.param[1] = AddParam(param, h.param(16 + 3*i + 1)); } entity->Add(&p); e.point[i] = p.h; } if(hasNormal) { Entity n; memset(&n, 0, sizeof(n)); n.workplane = workplane; n.h = h.entity(32); n.group = group; if(workplane.v == Entity::FREE_IN_3D.v) { n.type = Entity::NORMAL_IN_3D; n.param[0] = AddParam(param, h.param(32+0)); n.param[1] = AddParam(param, h.param(32+1)); n.param[2] = AddParam(param, h.param(32+2)); n.param[3] = AddParam(param, h.param(32+3)); } else { n.type = Entity::NORMAL_IN_2D; // and this is just a copy of the workplane quaternion, // so no params required } if(points < 1) oops(); // The point determines where the normal gets displayed on-screen; // it's entirely cosmetic. n.point[0] = e.point[0]; entity->Add(&n); e.normal = n.h; } if(hasDistance) { Entity d; memset(&d, 0, sizeof(d)); d.workplane = workplane; d.h = h.entity(64); d.group = group; d.type = Entity::DISTANCE; d.param[0] = AddParam(param, h.param(64)); entity->Add(&d); e.distance = d.h; } // And generate any params not associated with the point that // we happen to need. for(i = 0; i < params; i++) { e.param[i] = AddParam(param, h.param(i)); } if(et) entity->Add(&e); } char *Request::DescriptionString(void) { char *s; if(h.v == Request::HREQUEST_REFERENCE_XY.v) { s = "#XY"; } else if(h.v == Request::HREQUEST_REFERENCE_YZ.v) { s = "#YZ"; } else if(h.v == Request::HREQUEST_REFERENCE_ZX.v) { s = "#ZX"; } else { switch(type) { case WORKPLANE: s = "workplane"; break; case DATUM_POINT: s = "datum-point"; break; case LINE_SEGMENT: s = "line-segment"; break; case CUBIC: s = "cubic-bezier"; break; case CIRCLE: s = "circle"; break; case ARC_OF_CIRCLE: s = "arc-of-circle"; break; case TTF_TEXT: s = "ttf-text"; break; default: s = "???"; break; } } static char ret[100]; sprintf(ret, "r%03x-%s", h.v, s); return ret; } hParam Request::AddParam(IdList *param, hParam hp) { Param pa; memset(&pa, 0, sizeof(pa)); pa.h = hp; param->Add(&pa); return hp; }